US20040214993A2 - Tumour necrosis factor binding ligands - Google Patents
Tumour necrosis factor binding ligands Download PDFInfo
- Publication number
- US20040214993A2 US20040214993A2 US10/264,844 US26484402A US2004214993A2 US 20040214993 A2 US20040214993 A2 US 20040214993A2 US 26484402 A US26484402 A US 26484402A US 2004214993 A2 US2004214993 A2 US 2004214993A2
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- Prior art keywords
- antibody
- fragment
- cancelled
- inhibits
- human tnf
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Definitions
- the present invention relates to ligands which bind to human tumour necrosis factor alpha (TNF) in a manner such that upon binding the biological activity of TNF is modified.
- TNF tumour necrosis factor alpha
- the type of modification shown here is distinct from previous descriptions of antibodies which bind to TNF alpha and inhibit all TNF alpha activity.
- the new discovery shows how the different activities of TNF alpha can be selectively inhibited or enhanced.
- the present invention relates to a composition comprising a molecule bound to TNF and to methods of therapy utilising TNF and molecules active against TNF.
- Tumor necrosis factor alpha is a product of activated macrophages first observed in the serum of experimental animals presensitized with Bacillus Calmette-Guerin or Corynebacterium narvum and challenged with endotoxin (LPS). Following the systematic administration of TNF haemorrhagic necrosis was observed in some transplantable tumours of mice while in vitro TNF caused cytolytic or cytostatic effects on tumour cell lines.
- TNF has been implicated as the causative agent of pathological changes in septicemia, cachexia and cerebral malaria.
- Passive immunization of mice with a polyclonal rabbit serum against TNF has been shown to protect mice against the lethal effects of LPS endotoxin, the initiating agent of toxic shock, when administered prior to infection.
- coagulation which occurs as a consequence of TNF activation of endothelium and also peripheral blood monocytes.
- Disseminated intravascular coagulation is associated with toxic shock and many cancers including gastro-intestinal cancer, cancer of the pancreas, prostate, lung, breast and ovary, melanoma, acute leukaemia, myeloma, myeloproliferative syndrome and myeloblastic leukaemia.
- Clearly modifications of TNF activity such that tumour regression activity remains intact but other undesirable effects such as activation of coagulation are removed or masked would lead to a more advantageous cancer therapy, while complete abrogation of TNF activity is sought for successful treatment of toxic shock.
- the present inventors have produced panels of monoclonal antibodies active against human TNF and have characterised them with respect to their effects on the anti-tumour effect of TNF (both in vitro and in vivo ), TNF receptor binding, activation of coagulation (both in vitro and in vivo ) and defined their topographic specificities.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the following biological activities of the TNF are inhibited:1. Tumour regression;2. Induction of endothelial procoagulant;3. Induction of tumour fibrin deposition; 4. Cytotoxicity; and5. Receptor binding.
- the ligand is selected from the group consisting of antibodies, F(ab) fragments, restructured antibodies (CDR grafted humanised antibodies) single domain antibodies (dAbs), single chain antibodies, serum binding proteins, receptors and natural inhibitors.
- the ligand may also be a protein or peptide which has been synthesised and which is analogous to one of the foregoing fragments. However, it is presently preferred that the ligand is a monoclonal antibody or F(ab) fragment thereof.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the induction of endothelial procoagulant, tumour regression, induction of tumour fibrin deposition, cytotoxicity and receptor binding activities of the TNF are inhibited, the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of residues 1-18 (Val 1 -Arg 2 -Ser 3 -Ser 4 -Ser 5 -Arg 6 -Thr 7 -Pro 8 -Ser 9 -Asp 10 -Lys 11 -Pro 12 -Val 13 -Ala 14 -His 15 -Val 16 -Val 17 -Ala 18 ) (SEQ ID NO:1), 58-65 (Ile 58 -Tyr 59 -Ser 60 -Gln 61 -Val 62 -Leu 63 -Phe 64 -L
- the present invention consists in a ligand which binds to human TNF in at least two regions selected from the group consisting predominately of the topographic region of residues 1-20 (SEQ ID NO:12), the topographic region of residues 56-77, the topographic region of residues 108-127 and the topographic region of residues 138-149 (SEQ ID NO:4).
- the ligand binds to human TNF in the topographic regions of residues 1-18 (SEQ ID NO:1), 58-65 (SEQ ID NO:2), 115-125 (SEQ ID NO:3) and 138-149 (SEQ ID NO:4).
- sequence regions are topographically represented in Fig. 24.
- the ligand binds to human TNF in the topographic regions of residues 1-18 (Val 1 -Arg 2 -Ser 3 -Ser 4 -Ser 5 -Arg 6 -Thr 7 -Pro 8 -Ser 9 -Asp 10 -Lys 11 -Pro 12 -Val 13 -Ala 14 -His 15 -Val 16 -Val 17 -Ala 18 ) (SEQ ID NO:1) and 108-128 (Gly 108 -Ala 109 -Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125- Leu 126 -Glu 127 -Lys
- the ligand binds to human TNF in the topographic regions of residues 56-79 (SEQ ID NO:6), 110-127 (SEQ ID NO:7) and 136-155 (SEQ ID NO:8). Such sequence regions are topographically represented in Fig. 25.
- the ligand is a monoclonal antibody selected from the group consisting of the monoclonal antibodies designated MAb 1, MAb 47 and MAb 54.
- MAb 1 was deposited on 3 August 1989 and accorded accession No. 89080301;
- MAb 54 was deposited on 31 August 1989 and accorded accession No. 89083103;
- MAb 47 was deposited on 14 December 1989 and accorded accession No. 89121402.
- the present invention consists in a composition comprising TNF in combination with the ligand of the first, second or third aspect of the present invention, characterised in that the ligand is bound to the TNF.
- the present invention consists in a method of treating toxic shock comprising administering either the ligand of the first, second or third aspect of the present invention or the composition of the fourth aspect of the present invention.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited; binding of TNF to receptors on endothelial cells is inhibited; the induction of tumour fibrin deposition and tumour regression activities of the TNF are enhanced; the cytotoxicity is unaffected and tumour receptor binding activities of the TNF are unaffected or enhanced.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited; the binding of the TNF to receptors on endothelial cells is inhibited, the induction of tumour fibrin deposition and tumour regression activities of the TNF are enhanced; and the cytotoxicity and receptor binding activities of the TNF are unaffected; the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of residues 1-30, 117-128 and 141-153 is substantially prevented from binding to naturally occurring biologically active ligands.
- the present invention consists of a ligand which binds to human TNF in the topographic regions of residues 1-30, 117-128 and 141-153.
- the ligand binds to human TNF in the topographic regions of residues 1-26, 117-128 and 141-153. Such sequence regions are topographically represented in Fig. 26.
- the ligand is the monoclonal antibody designated MAb 32.
- MAb 32 A sample of the hybridoma producing MAb 32 was deposited with The European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 3 August 1989 and was accorded accession No. 89080302.
- the present invention consists in a composition comprising TNF in combination with a ligand of the sixth, seventh or eighth aspects of the present invention characterised in that the ligand is bound to TNF. No previous documentation of administering MAbs with TNF in order to modify activity of the administered cytokine exists.
- the present invention consists in a method of treating tumours the growth of which is inhibited by TNF, comprising administering either the ligand of the sixth, seventh or eighth aspects of the present invention or the composition of the ninth aspect of the present invention.
- the present invention consists in a ligand which binds to residues 1-18 (SEQ ID NO:1) of human TNF (peptide 301 (SEQ ID NO:1)).
- the present invention consists in a ligand capable of binding to human TNF, the ligand characterized in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited; the binding of TNF to receptors on endothelial cells is inhibited; the induction of tumour fibrin deposition and tumour regression activities of the TNF are enhanced; the cytotoxicity of the TNF are unaffected and tumour receptor binding activities of the TNF are unaffected or enhanced, the ligand binding to TNF such that the epitope of the TNF defined by the topographic region of residues 1-18 (SEQ ID NO:1) is substantially prevented from binding to naturally occurring biologically active ligands.
- the present invention consists in a composition comprising TNF in combination with a ligand of the eleventh or twelfth aspects of the present invention characterized in that the ligand is bound to the TNF.
- the present invention consists in a method of treating tumours the growth of which is inhibited by TNF, comprising administering either the ligand of the eleventh or twelfth aspect of the present invention or the composition of the thirteenth aspect of the present invention.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the cytotoxicity and tumour regression activities of the TNF are unaffected; the induction of endothelial procoagulant and induction of tumour fibrin deposition activities of the TNF are inhibited and receptor binding activities of the TNF are unaffected.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the cytotoxicity and tumour regression activities of the TNF are unaffected; the induction of endothelial procoagulant and induction of tumour fibrin deposition activities of the TNF are inhibited and the tumour receptor binding activities of the TNF are unaffected, the ligand binding to TNF such that the epitope of the TNF defined by the topographic regions of residues 22-40 (Ala 22 -Glu 23 -Gly 24 -Gln 25 -Leu 26 -Gln 27 -Trp 28 -Leu 29 -Asn 30 -Arg 31 -Arg 32 -Ala 33 -Asn 34 -Ala 35 -Leu 36 -Leu 37 -Ala 38 -Asn 39 -Gly 40 ) (SEQ ID NO:9), 49-97 (Val 49 -Val 50 -Val 50
- the present invention consists in a ligand which binds to human TNF in the topographic regions of residues 22-40 (Ala 22 -Glu 23 -Gly 24 -Gln 25 -Leu 26 -Gln 27 -Trp 28 -Leu 29 -Asn 30 -Arg 31 -Arg 32 -Ala 33 -Asn 34 -Ala 35 -Leu 36 -Leu 37 -Ala 38 -Asn 39 -Gly 40 ) (SEQ ID NO:9), 49-97 (Val 49 -Val 50 -Pro 51 -Ser 52 -Glu 53 -Gly 54 -Leu 55 -Tyr 56 -Leu 57 -Ile 58 -Tyr 59 -Ser 60 -Gln 61 -Val 62 -Leu 63 -Phe 64 -Lys 65 -Gly 66 -Gln 67 -Gly
- the ligand binds to human TNF in the topographic regions of residues 22-40 (Ala 22 -Glu 23 -Gly 24 -Gln 25 -Leu 26 -Gln 27 -Trp 28 -Leu 29 -Asn 30 -Arg 31 -Arg 32 -Ala 33 -Asn 34 -Ala 35 -Leu 36 -Leu 37 -Ala 38 -Asn 39 -Gly 40 ) (SEQ ID NO:9), 49-96 (Val 49 -Val 50 -Pro 51 -Ser 52 -Glu 53 -Gly 54 -Leu 55 -Tyr 56 -Leu 57 -Ile 58 -Tyr 59 -Ser 60 -Gln 61 -Val 62 -Leu 63 -Phe 64 -Lys 65 -Gly 66 -Gln 67 -Gly
- the ligand is the monoclonal antibody designated MAb 42.
- MAb 42 A sample of the hybridoma. cell line producing MAb 42 was deposited with The European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 3 August 1989 and was accorded accession No. 89080304, under the terms and conditions of the Budapest Treaty for the Deposit of Microorganisms for Patent purposes.
- ECACC European Collection of Animal Cell Cultures
- Vaccine Research and Production Laboratory Public Health Laboratory Service
- the present invention consists in a composition comprising TNF in combination with the ligand of the fifteenth, sixteenth or seventeenth aspects of the present invention, characterised in that the ligand is bound to the TNF.
- the present invention consists in a method of treating tumours inhibited by the action of TNF comprising administering the ligand of the fifteenth, sixteenth or seventeenth aspects of the present invention or the composition of the eighteenth aspect of the present invention.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the tumour fibrin deposition activity of the TNF is enhanced; the induction of endothelial procoagulant activity of the TNF is unaffected and the cytotoxicity, tumour regression and receptor binding activities of the TNF are inhibited.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the tumour fibrin deposition activity of the TNF is enhanced; the induction of endothelial procoagulant activity of the TNF is unaffected and the cytotoxicity, tumour regression and tumour receptor binding activities of the TNF are inhibited, the ligand binding to TNF such that the epitope of the TNF defined by the topographic regions of residues 12-22, 36-45, 96-105 and 132-157 is substantially prevented from binding to naturally occurring biologically active ligands.
- the present invention consists in a ligand which binds to human TNF in the topographic regions of residues 12-22, 36-45, 96-105 and 132-157. These regions are proximate in the 3D structure of TNF and are topographically represented in Fig. 28.
- the ligand is the monoclonal antibody designated MAb 25.
- MAb 25 A sample of the hybridoma cell line producing MAb 25 was deposited with the European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 14 December 1989 and was accorded accession No. 89121401.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the tumour fibrin deposition activity of the TNF is enhanced and the cytotoxicity, tumour regression, induction of endothelial procoagulant and receptor binding activities of the TNF are inhibited.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the tumour fibrin deposition activity of the TNF is enhanced and the cytotoxicity, tumour regression, induction of endothelial procoagulant and tumour receptor binding activities of the TNF are inhibited, the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of residues 1-20 (SEQ ID NO:12) and 76-90 (SEQ ID NO:13) is substantially prevented from binding to naturally occurring biologically active ligands.
- the present invention consists in a ligand which binds to human TNF in the topographic regions of residues 1-20 (SEQ ID NO:12) and 76-90 (SEQ ID NO:13). These regions are proximate in the 3D structure of TNF and are topographically represented in Fig. 29.
- the ligand binds to TNF in the topographic regions of residues 1-18 (SEQ ID NO:1) and 76-90 (SEQ ID NO:13).
- the ligand is the monoclonal antibody designated MAb 21.
- MAb 21 A sample of the hybridoma cell line producing MAb 21 was deposited with the European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 25 January 1990 and was accorded accession No. 90012432.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the fibrin deposition activity of the TNF is unaffected and the cytotoxicity, tumour regression, induction of endothelial procoagulant and tumour receptor binding activities of the TNF are inhibited.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the tumour fibrin deposition activity of the TNF is unaffected and the cytotoxicity, tumour regression, induction of endothelial procoagulant and receptor binding activities of the TNF are inhibited, the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of residues 22-40 (Ala 22 -Glu 23 -Gly 24 -Gln 25 -Leu 26 -Gln 27 -Trp 28 -Leu 29 -Asn 30 -Arg 31 -Arg 32 -Ala 33 -Asn 34 -Ala 35 -Leu 36 -Leu 37 -Ala 38 -Asn 39 -Gly 40 ) (SEQ ID NO:9), 69-97 (Cys 69 -Pro 70 -Ser 71
- the present invention consists in a ligand which binds to human TNF in the topographic regions of residues 22-40 (SEQ ID NO:9), 69-97 (SEQ ID NO:14), 105-128 (SEQ ID NO:15) and 135-155 (SEQ ID NO:16). These regions are proximate in the 3D structure of TNF and are topographically represented in Fig. 30.
- the ligand is the monoclonal antibody designated MAb 53.
- MAb 53 A sample of the hybridoma cell line producing MAb 53 was deposited with the European Collection of Animal Cell cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 25 January 1990 and was accorded accession No. 90012433, under the terms and conditions of the Budapest Treaty for the Deposit of Microorganisms for Patent purposes.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to the TNF tumour fibrin deposition, induction of endothelial procoagulant, cytotoxicity, tumour regression and receptor binding activities of the TNF are unaffected.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the tumour fibrin deposition, induction of endothelial procoagulant, cytotoxicity, tumour regression and receptor binding activities of the TNF are unaffected, the ligand binding to TNF such that the epitope of the TNF defined by the topographic regions of residues 22 - 31 and 146 - 157 is substantially prevented from binding to naturally occurring biologically active ligands.
- the present invention consists in a ligand which binds to human TNF in the .topographic regions of residues 22-31 and 146-157. These regions are proximate in the 3D structure of TNF and are typographically represented in Fig. 31.
- the ligand is the monoclonal antibody designated MAb 37.
- MAb 37 A sample of the hybridoma cell line producing MAb 37 was deposited with the European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 3 August 1989 and was accorded accession No. 89080303.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is unaffected and the cytotoxicity, tumour regression, tumour fibrin deposition, and receptor binding activities of the TNF are inhibited.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is unaffected and the cytotoxicity, tumour regression, tumour fibrin deposition and receptor binding activities of the TNF are inhibited, the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of the residues 22-40 (SEQ ID NO:9) and 49-98 is substantially prevented from binding to naturally occurring biologically active ligands.
- the present invention consists in a ligand which binds to human TNF in at least one of the regions selected form the group consisting of the topographic region of residues 22-40 (SEQ ID NO:9), the topographic region of residues 49-98 and the topographic region of residues 69-97 (SEQ ID NO:14).
- the ligand binds to human TNF in the topographical region of residues 49-98. This region is topographically represented in Fig. 32.
- the ligand binds to human TNF in the topographic regions of residues 22-40 (SEQ ID NO:9) and 70-87. These regions are proximate in the 3D structure of TNF and are topographically represented in Fig. 33.
- the ligand is monoclonal antibody MAb 11 or MAb 12.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited.
- the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited, the ligand binding to TNF such that the epitope of the TNF defined by the topographical region of residues 108-128 (SEQ ID NO:5) is prevented from binding to naturally occurring biologically active ligands.
- the present invention consists in a ligand which binds to human TNF in the topographical region of residues 108-128 (Gly 108 -Ala 109 -Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125- Leu 126 -Glu 127 -Lys 128 -) (SEQ ID NO:5).
- the ligand is selected from the group consisting of monoclonal antibodies designated MAb 1, MAb 32, MAb 42, MAb 47, MAb 53 and MAb 54.
- TNF TNF-related fibroblast growth factor
- Tumour Regression Induction of Endothelial Procoagulant
- Tumour Fibrin Deposition Induction of Tumour Fibrin Deposition
- Cytotoxicity adenosine-derived fibroblasts
- Receptor Binding The biological activities of TNF referred to herein by the terms “Tumour Regression”, “Induction of Endothelial Procoagulant”, “Induction of Tumour Fibrin Deposition”, “Cytotoxicity” and “Receptor Binding” are to be determined by the methods described below.
- single domain antibodies as used herein is used to denote those antibody fragments such as described in Ward et al (Nature, Vol. 341, 1989, 544 - 546) as suggested by these authors.
- FIG. 1 shows the results of a titration assay with MAb 1 against TNF
- FIG. 2 shows TNF MAb 1 scatchard plot and affinity determination
- FIG. 3 shows the effect of anti-TNF monoclonal antibodies 1 and 32 on TNF cytotoxicity in WEHI-164 cells
- FIG. 4 shows the effect of MAb 1 on TNF-induced regression of a Meth A solid tumour
- FIG. 5 shows the effect of MAbs 1 and 25 on TNF-induced Meth A Ascites tumour regression
- FIG. 6 shows the effect of anti-TNF MAbs on induction of endothelial cell procoagulant activity by TNF
- FIGs. 7a, 7b and 7c show incorporation of labeled fibrinogen into tumours of tumour-bearing mice and the effect of anti-TNF MAbs;
- FIG. 8 is a schematic representation of epitopes on TNF
- FIG. 9 shows the effect of anti-TNF MAbs on TNF-induced regression of WEHI-164 tumours
- FIGs. 10a and 10b show the enhancement of TNF regression activity by MAb 32 in two experiments
- Figs. 11a and 11b show the enhancement of TNF-induced tumour regression by MAb 32 - dose response at day 1 and day 2;
- FIG. 12 shows binding of radio labelled TNF to receptors on bovine aortic endothelial cells
- FIG. 13 shows receptor binding studies of TNF complexed with MAb 32 ( ), control antibody ( ) and MAb 47 ( ) on melanoma cell line MM418E;
- FIG. 14 shows receptor binding studies of TNF complexed with MAb 32 ( ), control antibody ( ) and MAb 47 ( ) on melanoma cell line IGR3;
- FIG. 15 shows receptor binding studies of TNF complexed with MAb 32 ( ), control antibody ( ) and MAb 47 ( ) on bladder carcinoma cell line 5637;
- FIG. 16 shows receptor binding studies of TNF complexed with MAb 32 ( ), control antibody ( ) and MAb 47 ( ) on breast carcinoma cell line MCF7;
- FIG. 17 shows receptor binding studies of TNF complexed with MAb 32 ( ), control antibody ( ) and MAb 47 ( ) on colon carcinoma cell line B10;
- FIG. 18 shows the effect on TNF-mediated tumour regression in vivo by MAb 32 ( ), control MAb ( ) and MAb 47 (*);
- FIG. 19 shows the effect on TNF-mediated tumour regression in vivo by control MAb, MAb 32 and univalent FAb' fragments of MAb 32;
- FIG. 20 shows the effect on TNF induced tumour regression by control MAb ( ), MAb 32 ( ) and peptide 301 antiserum ( );
- Figs. 21a, 21b and 21c show MAb 32 reactivity with overlapping peptides of 10 AA length.
- FIG. 22 shows a schematic three dimensional representation of the TNF molecule.
- FIG. 23 shows topographically the region of residues 1-20 (SEQ ID NO:12), 56-77, 108-127 and 138-149 (SEQ ID NO:4);
- FIG. 24 shows topographically the region of residues 1-18 (SEQ ID NO:1) and 108-128 (SEQ ID NO:5);
- FIG. 25 shows topographically the region of residues 56-79 (SEQ ID NO:6), 110-127 (SEQ ID NO:7) and 136-155 (SEQ ID NO:8);
- Fig. 26 shows topographically the region of residues 1-26, 117-128 and 141-153;
- Fig. 27 shows topographically the region of residues 22-40 (SEQ ID NO:9), 49-97 (SEQ ID NO:10), 110-127 (SEQ ID NO:7) and 136-153 (SEQ ID NO:11);
- Fig. 28 shows topographically the region of residues 12-22, 36-45, 96-105 and 132-157;
- FIG. 29 shows topographically the region of residues 1-20 (SEQ ID NO:12) and 76-90 (SEQ ID NO:13);
- FIG. 30 shows topographically the region of residues 22-40 (SEQ ID NO:9), 69-97 (SEQ ID NO:14), 105-128 (SEQ ID NO:15) and 135-155 (SEQ ID NO:16);
- FIG. 31 shows topographically the region of residues 22-31 and 146-157;
- FIG. 32 shows topographically the region of residues 49-98
- FIG. 33 shows topographically the region of residues 22-40 (SEQ ID NO:9) and 70-87;
- FIG. 34 shows results of an ELISA using samples containing varying levels of TNF.
- FIG. 35 shows the effect of VHP3-VA2 on anti-tumour activity of TNF.
- mice were immunised with 10 ug human recombinant TNF intra-peritoneally in Freund's complete adjuvant. One month later 10 ug TNF in Freund's incomplete adjuvant was administered. Six weeks later and four days prior to fusion selected mice were boosted with 10 ug TNF in PBS. Spleen cells from immune mice were fused with the myeloma Sp2/0 according to the procedure of Rathjen and Underwood (1986, Mol. Immunol. 23, 441). Cell lines found to secrete anti-TNF antibodies by radioimmunoassay were subcloned by limiting dilution on a feeder layer of mouse peritoneal macrophages. Antibody subclasses were determined by ELISA (Misotest, Commonwealth Serum Laboratories). Radioimmunoassay
- TNF was iodinated using lactoperoxidase according to standard procedures. Culture supernatants from hybridomas (50 ul) were incubated with 125I TNF (20,000 cpm in 50 ul) overnight at 4°C before the addition of 100 ul Sac-Cel (donkey anti-mouse/rat immunoglobulins coated cellulose, Wellcome Diagnostics) and incubated for a further 20 minutes at room temperature (20°C). Following this incubation 1 ml of PBS was added and the tubes centrifuged at 2,500 rpm for 5 minutes. The supernatant was decanted and the pellet counted for bound radioactivity. Antibody-Antibody Competition Assays
- tumour regression activity was assessed in three tumour models: the subcutaneous tumours WEHI-164 and Meth A sarcoma and the ascitic Meth A tumour.
- Subcutaneous tumours were induced by the injection of approximately 5 x 10 5 cells. This produced tumours of between 10 - 15 mm approximately 14 days later.
- Mice were injected intra-peritoneally with human recombinant TNF (10 micrograms) plus monoclonal antibody (200 microlitres ascites globulin) for four consecutive days.
- Control groups received injections of PBS alone or TNF plus monoclonal antibody against bovine growth hormone.
- tumour size was measured with calipers in the case of solid tumours or tumour-bearing animals weighed in the case of ascites mice. These measurements were taken daily throughout the course of the experiment. Radio-Receptor Assay
- WEHI-164 cells grown to confluency were scrape harvested and washed once with 1% BSA in Hank's balanced salt solution (HBSS, Gibco). 100 ul of unlabelled TNF (1-10,000 ng/tube) or monoclonal antibody (10 fold dilutions commencing 1 in 10 to 1 in 100,000 of ascitic globulin) was added to 50ul 125I TNF (50,000 cpm). WEHI cells were then added (200 microlitres containing 2 x 10 6 cells). This mixture was incubated in a shaking water bath at 37°C for 3 hours. At the completion of this incubation 1 ml of HBSS was added and the cells spun at 16,000 rpm for 30 seconds. The supernatant was discarded and bound 125I TNF in the cell pellet counted. All dilutions were prepared in HBSS containing 1% BSA. Procoagulant Induction by TNF on Endothelial Cells
- Bovine aortic endothelial cells (passage 10) were grown in RPMI-1640 containing 10% foetal calf serum (FCS), penicillin, streptomycin, and 2-mercaptoethanol at 37°C in 5% CO 2 .
- FCS foetal calf serum
- penicillin penicillin
- streptomycin 2-mercaptoethanol
- the cells were trypsinised and plated into 24-well Costar trays according to the protocol of Bevilacqua et al., 1986 (PNAS 83, 4533).
- TNF (0-500 units/culture) and monoclonal antibody (1 in 250 dilution of ascitic globulin) was added after washing of the confluent cell monolayer with HBSS. After 4 hours the cells were scrape harvested, frozen and sonicated.
- Total cellular procoagulant activity was determined by the recalcification time of normal donor platelet-poor plasma performed at 37°C, 100 microlitres of citrated platelet-poor plasma was added to 100 ul of cell lysate and 100 ul of calcium chloride (30nM) and the time taken for clot formation recorded.
- tumour cell culture supernatant was added to endothelial cells treated with TNF and/or monoclonal antibody (final concentration of 1 in 2).
- mice were injected subcutaneously with WEHI-164 cells (10 5 cells/animal). After 7 - 14 days, when tumours reached a size of approximately 1 cm in diameter, animals were injected intra-peritoneally with TNF (10 ug/animal) and 125I human fibrinogen (7.5ug/animal, 122UCi/mg Amersham) either alone or in the presence of monoclonal antibody to human TNF (200ul/animal ascitic globulin). Monoclonal antibody against bovine growth hormone was used as control monoclonal antibody. Two hours after TNF infusion incorporation of 125I fibrinogen into mouse tissue was determined by removing a piece of tissue, weighing it and counting the sample in a gamma counter.
- MAbs 1, 47 and 54 which have been shown in competition binding studies to share an epitope on TNF, can be seen to have highly desirable characteristics in treatment of toxic shock and other conditions of bacterial, viral and parasitic infection where TNF levels are high requiring complete neutralisation of TNF.
- Other monoclonal antibodies such as MAb 32 are more appropriate as agents for coadministration with TNF during cancer therapy since they do not inhibit tumour regression but do inhibit activation of coagulation. This form of therapy is particularly indicated in conjunction with cytotoxic drugs used in cancer therapy which may potentiate activation of coagulation by TNF (e.g.
- MAb 1 is of the immunoglobulin type IgGl, K with an apparent affinity of 4.4 x 10- 9 moles/litre (Fig. 2).
- MAb neutralises the cytotoxic effect of recombinant human TNF on WEHI-164 mouse fibrosarcoma cells in culture.
- One microgram of-MAb l neutralizes approximately 156.25 units of TNF in vitro (Fig. 3).
- MAb 1 neutralises the tumour regression activity of TNF in the following mouse tumour models in vivo ; WEHI-164 subcutaneous solid tumour, the Meth A subcutaneous solid tumour and the Meth A ascites tumour (Figs. 4, 5 and 9).
- MAbl prevents cerebral damage caused by human TNF in mice infected with malarial parasites.
- MAb 1 inhibits the induction of procoagulant activity (tissue factor) on cultured bovine aortic endothelial cells (Fig. 6).
- MAb 1 reduces the uptake of 125I fibrinogen into tumours of mice treated with TNF (Figs. 7a-c).
- MAb 1 competes for binding of 125I TNF and thus shares an overlapping epitope with the following monoclonal antibodies: 21, 25, 32, 47, 54 and 37.
- MAb 1 does not compete for binding of 1251 TNF with the following monoclonal antibodies: 11, 12, 42, 53, 31 and 20 (Fig. 8).
- MAb 32 is an IgG2b,K antibody with an affinity for human TNF alpha of 8.77 x 10 -9 moles/litre as determined by Scatchard analysis. This monoclonal antibody does not react with either human TNF beta (lymphotoxin) or mouse TNF alpha.
- MAb 32 does not inhibit TNF cytotoxicity in vitro as determined in the WEHI-164 assay.
- Monoclonal antibody 32 variably enhances TNF-induced tumour regression activity against WEHI-164 fibrosarcoma tumours implanted subcutaneously into BALB/c mice at a TNF dose of 10 ⁇ g/day (Figs. 10 a-b and 11a-b). This feature is not common to all monoclonal antibodies directed against TNF (Fig. 9) but resides within the binding site specificity of MAb 32 (Fig. 8) which may allow greater receptor mediated uptake of TNF into tumour cells (see Table 4).
- Enhancement of TNF activity by Mab 32 at lower doses of TNF is such that at least tenfold less TNF is required to achieve the same degree of tumour regression (see Figs. 11a-b and 18).
- the results for day 1, 2.5ug and 1ug TNF and day 2, 5ug, 2.5ug and 1ug are statistically significant in a t-test at p ⁇ .01 level.
- This level of enhancement also increases the survival rate of recipients since the lower dose of TNF used is not toxic.
- Fig. 19 shows that univalent Fab fragments of Mab 32 also cause enhancement of TNF-induced tumour regression in the same manner as whole Mab 32 (see below).
- MAb 32 inhibits the expression of clotting factors on endothelial cells normally induced by incubation of the cultured cells with TNF (see Fig. 6). This response may be mediated by a previously unidentified TNF receptor which is distinct to the receptor found on other cells.
- MAb 32 enhances the in vivo activation of coagulation within the tumour bed as shown by the incorporation of radiolabelled fibrinogen (Figs. 7a-c). This may be due to activation of monocytes/macrophage procoagulant and may provide further insight into the mechanism of TNF-induced tumour regression.
- Bovine aortic endothelial (BAE) cells (passage 11) were plated in 24-well culture dishes (Corning) which had been pre-coated with gelatin (0.2%) and grown to confluence in McCoys 5A (modified) medium supplemented with 20% foetal calf serum. For the radio-receptor assay all dilutions (of cold TNF and MAbs) were made in this medium.
- the BAE cells were incubated for one hour in the presence of either cold TNF (0 to 100ng) or MAb (ascites globulins diluted 1/100 to 1/100,000) and iodinated TNF (50,000 cpm). At the end of this time the medium was withdrawn and the cells washed before being lysed with 1M sodium hydroxide. The cell lysate was then counted for bound radioactive TNF. Specific binding of labelled TNF to the cells was then determined.
- results obtained in the clotting assay using BAE cells cultured in the presence of TNF and anti-TNF MAb correlate with the results obtained in the BAE radioreceptor assay i.e. MAbs which inhibit the induction of clotting factors on the surface of endothelial cells (as shown by the increase in clotting time compared to TNF alone) also inhibit the binding of TNF to its receptor. This is exemplified by MAbs 32 and 47.
- MAb 32 which does not inhibit TNF binding to WEHI-164 cells, does inhibit binding of TNF to endothelial cells. This result provides support for the hypothesis that distinct functional sites exist on the TNF molecule and that these sites interact with distinct receptor subpopulations on different cell types. Thus ligands which bind to defined regions of TNF are able to modify the biological effects of TNF by limiting its binding to particular receptor subtypes.
- MAb 47 is a particularly potent inhibitor of TNF interaction with endothelial cells, the percentage specific binding at a dilution of 1/100 to 1/10,000 being effectively zero.
- MAb 32 has been shown to enhance the anti-tumour activity of human TNF.
- the mechanisms behind the enhancement may include restriction of TNF binding to particular (tumour) receptor subtypes but not others (endothelial) with subsequent decrease in TNF toxicity to non-tumour cells. This mechanism does not require enhanced uptake of TNF by tumour cells in in vitro assays.
- MAb 32 also potentiates the binding of human TNF directly to TNF receptors on certain human carcinoma cell lines.
- the following human carcinoma cell lines have been assayed for enhanced receptor-mediated uptake of TNF in the presence of MAb 32: B10, CaCo, HT 29, SKC01 (all colon carcinomas), 5637 (Bladder carcinoma), MM418E (melanoma), IGR3 (melanoma), MCF 7 (breast carcinoma).
- the cells were propogated in either RPMI-1640 (MM418E) DMEM (CaCo and IGR 3) or Iscoves modified DMEM (B10, HT 29, SK01, S637, MCF 7) supplemented with 10% foetal calf serum, penecillin/streptomycin and L-glutamine.
- Receptor assays were performed as previously described for endothelial cells except that the incubation time with iodinated TNF was extended to 3 hours for all but the B10 cells for which the radiolabel was incubated for 1 hour.
- Enhanced TNF uptake was observed in the presence of MAb32 by the melanoma cell lines tested MM418E and IGR 3 (Figs. 13 and 14), the bladder carcinoma 5637 (Fig. 15), and the breast carcinoma MCF 7 (Fig. 16).
- MAb 32 did not affect TNF-receptor interaction in any of the other cell lines as shown by B 10 (Fig. 17)
- MAb 47 which has been shown to inhibit TNF binding to WEHI-164 cells and endothelial cells, and which also inhibits TNF-mediated tumour regression was found to markedly inhibit TNF binding to all the cell lines tested (Figs. 13-17).
- FIG. 20 shows the percent change in tumour area in tumour-bearing mice treated for three days with TNF plus control MAb (antibody against bovine growth hormone), TNF plus MAb 32 or TNF plus antiserum (globulin fraction) against peptide 301 (SEQ ID NO:1).
- control MAb antibody against bovine growth hormone
- MAb 32 antiserum 301
- MAb 32 and peptide antiserum 301 groups are not significantly different from each other.
- the carboxy terminal amino acid was attached to the solid support by a DCC/DMAP-mediated symmetrical-anhydride esterification.
- Peptide 301 (SEQ ID NO:1), 302 (SEQ ID NO:18), 305 (SEQ ID NO:20) are cleaved from the resin with 95% TFA and 5% thioanisole (1.5 h) and purified on reverse phase C4 column, (Buffer A - 0.1% aqueous TFA, Buffer B - 80% ACN 20% A).
- Peptide 303, 304 (SEQ ID NO:19) are cleaved from the resin with 95% TFA and 5% phenol (5-6 h) and purified on reverse phase C4 column. (Buffers as above).
- Peptide 306 (SEQ ID NO:21), 308 (SEQ ID NO:22) are cleaved from the resin with 95% TFA and 5% water (1.5 h) and purified on reverse phase C4 column. (Buffers as above).
- Peptide 309 (SEQ ID NO:23) was cleaved from the resin with 95% TFA and 5% thioanisole and purified on reverse phase C4 column. (Buffers as above).
- Peptide 307 (SEQ ID NO:9) was cleaved from the resin with a mixture of 93% TFA, 3.1% Anisole, 2.97% Ethylmethylsulfide and 0.95% Ethanedithiol (3 h) and purified on reverse phase C4 column. (Buffers as above). RESULTS
- Typical results of MAb ELISA using the 7 and 10 mers are shown in Figs. 21a-c. Together with the results of PACT assays using the sheep anti-peptide sera (shown in Table 6) the following regions of TNF contain the binding sites of the anti-TNF MAbs.
- MAB 1. residues 1-18 (SEQ ID NO:1), 58-65 (SEQ ID NO:2), 115- 125 (SEQ ID NO:3), 138-149 (SEQ ID NO:4)
- MAB 11 residues 49-98
- MAB 12 residues 22-40 (SEQ ID NO:9), 70-87
- MAB 21 residues 1-18 (SEQ ID NO:1), 76-90 (SEQ ID NO:13)
- MAB 25 residues 12-22, 36-45, 96-105, 132-157
- MAB 32 residues 1-26, 117-128, 141-153
- MAB 37 residues 22-31, 146-157
- MAB 42 residues 22-40 (SEQ ID NO:9), 49-96.
- the ligands of the present invention can be used in assays of biological fluids for detecting the presence of and quantifying the concentration of TNF in a sample.
- One means by which this may be achieved is by using the ligands of the present invention in conventional ELISAs. Set out below is an example of such an assay.
- TNF ELISA REAGENTS CARBONATE COATING BUFFER, PH 9.6 NA2CO 3 1.6 g NAHCO 3 2.9 g Add 800 ml dH 2O; pH to 9.6 then make to 1 L with dH 2O BLOCKING BUFFER BSA 1 g PBS 100 mL Add BSA to PBS and allow to dissolve fully before using Store at 4° C.
- biotinylated antibody mix (equal proportions of biotinylated monoclonal antibodies 11 & 42 to human TNF) at a final concentration of 10 ⁇ g/mL in blocking buffer to each well, cover and incubate.
- Substrate solution should be prepared immediately prior to use.
- mice VH and Vk genes were assembled for expression as scFv fragments by PCR assembly (Clarkson et al ., supra ) amplified with VH1BACKSfi and VFFOR4NOT and ligated into phagemid pHEN1 (H.R. Hoogenboom et al. , 1991 Nucl. Acids. Res. 19 pp4133-4137) as a SfiI-NotI cut restriction fragment, and electroporated into E.coli HB2151 cells. Of 96 clones analysed by ELISA (see below), 9 secreted TNF-binding soluble scFv fragments.
- the murine V-genes were recloned for soluble expression of heavy (Fd, VHCH1) or light chain, by linking the mouse V-genes to the human CH1 (of the mu-isotype) or human Ck gene respectively by splice overlap extension.
- the mouse Vk gene was amplified from scFv-MAb32 DNA with oligonucleotides MOJK1FORNX (binds in joining region of V-gene and MVKBASFI (binds in 5' region and adds Sfil restriction site); the human Ck was obtained by PCR from a mouse-human chimaeric light chain gene (of NQ10.12.5, described in Hoogenboom et al., 1991 supra ), with oligonucleotides MOVK-HUCK-BACK (binds in 5' of human Ck and is partially complementary with mouse Jk 1 region) and HUCKNOT16NOMYC (sits in 3' end of human Ck, retains the terminal cysteine, and tags on a NotI restriction site) as in Clackson et al.
- mouse VH gene (amplified from scFv-MAb32 with LMB3 and VH1FOR-2) was combined by splicing by overlap extension PCR with the human u-CH1 domain (amplified from human IgM-derived cDNA (Marks et al. , 1991, supra ; WO 92/01047) with Mo-VH-Ku-CH1 and HCM1FONO, and cloned as SfiI-NotI fragment into a pUC19-pe1B-myc for soluble expression of a tagged chain. Display of the MAb32 antibody on phage :
- the chimaeric light chain was displayed on phage fd by reamplification of the mouse/human chimaeric chain with HUCKCYSNOT and MVKBAAPA and cloning into fd-tet-DOG1 as an ApaLI-NotI fragment.
- Cells harbouring a plasmid with the heavy Fd chain gene were grown in 2xTY containing AMP-GLU (1%) to logarithmic phase (OD600 of 0.5) and infected with a 20-fold excess of light-chain displaying phage. After 45 min at 37°C without shaking and 45 min at 37°C with shaking in the 2xTY, ampicillin (100 ⁇ g/ml).
- Glucose 1% medium a sample was diluted into 50-fold volume of prewarmed (37°C) 2 x TY, ampicillin (100 ⁇ g/ml) and tetracyclin (15 ⁇ g/ml), grown for 1 hr at 37°C and then overnight at 30°C (shaking). Phage particles collected from the supernatant of such culture displayed TNF-binding Fab fragments anchored through the light chain on their surface.
- V-genes of the murine antibody MAb32 were cloned by amplifying the hybridoma V-genes, cloning the VH and Vk genes as scFv fragments in phagemid pHEN1 as above. Antibody scFv fragments which bind to TNF were identified by ELISA.
- the mouse VH gene was recloned in pUC19-pe1B-myc for soluble expression as a mouse VH linked to human mu-CH1, while the light chain was recloned with the human Ck domain in vector fd-tet-DOG1 as a fusion with g3p.
- Kappa, lambda light chain and Mu-specific cDNA was made from the mRNA prepared from the peripheral blood lymphocytes from two healthy donors essentially as in Marks et a1 ., 1991, supra.
- the first-strand cDNA synthesis was performed with oligonucleotides HCMlFO, HUCLCYS and HUCKCYS for Mu-specific, lambda and kappa libraries respectively.
- the VH-CH 1 repertoire was amplified from this cDNA with oligonucleotides HCM1FO and six family specific VHBACK primers (as in Marks et a1.
- the amplified repertoires were reamplified with ApaLI and NotI tagged versions of these oligonucleotides (13 back primers HuV1BAAPA to Hu6BAAPA or HuVk1BAAPA to HuVkBAAPA and two forward primers HuCLCYSNOT and HuCKCYSNOT, respectively). All three repertoires were cloned into vector fd-tet-DOG1 as ApaLI-NotI fragments, and electroporated into E.coli MC1061 cells, to obtain libraries of 1.0 x 10 7 clones for VICA, 1.4 x 10 6 clones for VkCk, and 5 x 10 6 clones for IgM-derived VHCH1. The presence of insert was checked and the frequency of inserts in the library found to be higher than 95% in all three cases. Selecting a human VL using the mouse VH domain as docking chains :
- V ⁇ genes were recloned in pUC19-pelB-myc for soluble expression V ⁇ C ⁇ chains.
- E. coli cells harbouring the three light chain plasmids were mixed, infected with a phage library of human VHCH1 genes, expressed from the fd-tet-DOC1 library described earlier and the library subjected to rounds of panning on TNF-coated Immuno tubes. Clones were picked after 5 rounds, when the titre of eluted phage increased 100-fold. Fifteen out of 20 clones analysed by BstNI fingerprint of the DNA insert used one of two patterns (with approximately the same frequency).
- VHP1 was most likely a cross-over between DP-51 and a related germline, DP-47. All three selected VH-genes had relatively short CDR3 loops (8, 9 and 10 residues), but shared little homology in this sequence. Specificity of binding of the selected V-gene pairs :
- VHP2-VA2 and VHP3-VA2 were subjected to competition ELISA for the determination of the relative affinity for TNF.
- Antibodies were incubated on a TNF-coated surface in the presence of increasing amounts of soluble TNF. All the clones showed a roughly similar decrease in the ELISA signal over the same range of increasing TNF concentrations (with an IC50 in the 10nM to l00nM range).
- MAb32 and VHP3VA2 fragments were also analysed for binding properties using the Pharmacia BIAcore. TNF was indirectly immobilised on the surface, and the binding of antibody monitored. On the TNF surface, the Fab fragment from MAb32 by proteolytic cleavage and the scFv MAb32 showed very similar fast off rates (approximately 10 -2 s -1 ). The human VHP3-VA2 antibody has an off rate in the same range as the original scFv-MAb32. On rates for antibody protein interactions were in the range seen for the interaction between other proteins and their receptors, and cover a 100 fold range between 10 4 and 10 6 M -1 S -1 (Mason D.W.
- a library of human light chains were shuffled with a mouse VH domain, binding combinations selected and then used in a second shuffle as "docking domains" for a library of human VH genes.
- Completely human antibodies were isolated from such "genuine" human library. The antibodies were shown to bind retain binding specificity.
- the mouse VL was used as docking chain for selecting human VH partners.
- Such VH domains can be used to find human VL genes, or alternatively, can be combined with human VL domains selected with the mouse VH domain. Indeed, binding activity was obtained by combining two independently selected V-genes, pointing towards potential additivity of the EIS procedure.
- the EIS approach may serve to humanise antibodies more rapidly than by CDR-grafting (Riechmann et a1 ., 1988, supra), as this method requires very often a detailed knowledge of the 3-D structure of the antibody.
- the EIS method can be extended to for example antibody repertoires obtained by phage selection from immunised rodents.
- V-genes with high affinity and specificity may be selected and then used in an epitope imprinted selection (see example 4) to generate a range of human antibodies of high affinity and enriched for the desired specificity.ENHANCEMENT OF TNF-INDUCED TUMOUR REGRESSION BY ANTIBODY VHP3-VA2, THE HUMAN EQUIVALENT OF MAB 32
- mice were inoculated with WEHI-164 tumour cells as described above. After development of subcutaneous tumours the mice were treated daily with TNF (1 or l01g) alone or in combination with purified P3A2 (501) by intraperitoneal injection. Tumour size was measured throughout the course of the treatment period.
- VHP3-VA2 enhanced the anti-tumour activity of TNF at both the 1 and l01g levels.
- MAbs which inhibit the induction of endothelial cell procoagulant activity (MAbs 1, 32, 42, 47, 54 and 53) all bind in the region of residues 108-128 (SEQ ID NO:5) which again contains a loop structure in the 3-D model and may indicate that this region interacts with TNF receptors which are found on endothelial cells but not tumour cells.
- MAb 32 which potentiates the in vivo tumour regression and anti-viral activity of TNF is the only antibody which binds all the loop regions associated with residues 1-26, 117-128, and 141-153 and hence binding of these regions is curcial for enhanced TNF bioactivity with concommittant reduction of toxicity for normal cells.
- a ligand which binds to TNF predominately in the regions of residues 1-20 (SEQ ID NO:12) and 76-90 (SEQ ID NO:13) will have the same effect on the bioactivity of TNF as MAb 21.
- a ligand which binds to TNF predoinately in the regions of residues 22-40 (SEQ ID NO:9) and 69-97 (SEQ ID NO:14) will have the same effect on bioactivity of TNF as MAb12.
- a ligand which binds to TNF predominately in the regions of residues 1-30, 117-128, and 141-153 would be expected to have the same effect on the bioactivity of TNF as MAb 32 and a ligand which binds to TNF predominately in the regions of residues 22-40 (SEQ ID NO:9), 49-97 (SEQ ID NO:10), 110-127 (SEQ ID NO:7) and 136-153 (SEQ ID NO:11) would be expected to have the same effect on the bioactivity of TNF as MAb 42.
- a ligand which binds to TNF predominately in the regions of residues 22-31 and 146-157 would be expected to have the same effect on the bioactivity of TNF as MAb 37 and a ligand which binds to TNF predominately in the regions of residues 22-40 (SEQ ID NO:9), 69-97 (SEQ ID NO:14), 105-128 (SEQ ID NO:15) and 135-155 (SEQ ID NO:16) would be expected to have the same effect on the bioactivity of TNF as MAb 53.
- the bioactivity of TNF can be altered by the binding of a ligand to the TNF, and that the effect on the bioactivity is a function of the specificity of the ligand.
- the binding of MAb 32 to TNF in the regions of residues 1-26, 117-128 and 141-153 results in the induction of endothelial procoagulant activity of the TNF and binding of TNF to receptors on endothelial cells being inhibited; the induction of tumour fibrin deposition and tumour regression activities of the TNF being enhanced; the cytotoxicity being unaffected and the tumour receptor binding activities of the TNF being unaffected or enhanced.
- this effect on the bioactivity of the TNF may be due to the prevention of the binding of the epitope of the TNF recognised by MAb 32 to naturally occurring biologically active ligands. Accordingly, it is believed that a similar effect to that produced by MAb 32 could also be produced by a ligand which binds to a region of TNF in a manner such that the epitope recognised by MAb 32 is prevented from binding to naturally occurring biologically active ligands. This prevention of binding may be due to steric hindrance or other mechanisms.
Abstract
The present invention relates to ligands which bind to human tumour necrosis factor alpha (TNF) in a manner such that upon binding of these ligands to TNF the biological activity of TNF is modified. In preferred forms the ligand binds to TNF in a manner such that the induction of endothelial procoagulant activity of the TNF is inhibited; the binding of TNF to receptors on endothelial cells is inhibited; the induction of fibrin deposition in the tumour and tumour regression activities of the TNF are enhanced; and-the cytotoxicity and receptor binding activities of the TNF are unaffected or enhanced on tumour cells. The ligand is preferably an antibody, F(ab) fragment, single domain antibody (dABs) single chain antibody or a serum binding protein. It is preferred, however, that the ligand is a monoclonal antibody or F(ab) fragment thereof.
Description
- This application is a continuation of application Serial No. 09/736,630, now U.S. Pat. No. 6,593,457, filed December 13, 2000, which is a continuation of application Serial No. 09/364,039 (now U.S. Patent No. 6,416,757), filed July 30, 1999, which is a continuation of application Serial No. 08/823,893, filed March 17, 1997 (now U.S. Patent No. 5,959,087), which is a continuation of application Serial No. 08/344,133, filed November 23, 1994 (now U.S. Patent No. 5,644,034), which is a continuation-in-part of application Serial No. 07/828,956, filed February 18, 1992 (now abandoned), which is a national phase filing of PCT/AU90/00337, filed August 7, 1990, which claims the benefit of Australian applications AU PJ5662, filed August 7, 1989, and AU PJ7576, filed November 24, 1989, the disclosures of which are incorporated herein by reference in their entirety.
- The present invention relates to ligands which bind to human tumour necrosis factor alpha (TNF) in a manner such that upon binding the biological activity of TNF is modified. The type of modification shown here is distinct from previous descriptions of antibodies which bind to TNF alpha and inhibit all TNF alpha activity. The new discovery shows how the different activities of TNF alpha can be selectively inhibited or enhanced. In addition, the present invention relates to a composition comprising a molecule bound to TNF and to methods of therapy utilising TNF and molecules active against TNF.
- BACKGROUND OF THE INVENTION
- Tumor necrosis factor alpha (TNF) is a product of activated macrophages first observed in the serum of experimental animals presensitized withBacillus Calmette-Guerin or Corynebacterium narvum and challenged with endotoxin (LPS). Following the systematic administration of TNF haemorrhagic necrosis was observed in some transplantable tumours of mice while in vitro TNF caused cytolytic or cytostatic effects on tumour cell lines.
- In addition to its host-protective effect, TNF has been implicated as the causative agent of pathological changes in septicemia, cachexia and cerebral malaria. Passive immunization of mice with a polyclonal rabbit serum against TNF has been shown to protect mice against the lethal effects of LPS endotoxin, the initiating agent of toxic shock, when administered prior to infection.
- The gene encoding TNF has been cloned allowing the usefulness of this monokine as a potential cancer therapy agent to be assessed. While TNF infusion into cancer patients in
stage 1 clinical trials has resulted in tumour regression, side-effects such as thrombocytopaenia, lymphocytopaenia, hepatotoxicity, renal impairment and hypertension have also been reported. These quite significant side-effects associated with the clinical use of TNF are predictable in view of the many known effects of TNF, some of which are listed in Table 1. -
TABLE 1 BIOLOGICAL ACTIVITIES OF TNF ANTI-TUMOUR ANTI-VIRAL ANTI-PARASITE FUNCTION cytotoxic action on tumour cells pyrogenic activity angiogenic activity initiation of lipoprotein lipase activation of neutrophils osteoclast activation induction of endothelial; monocyte and tumour cell procoagulant activity induction of surface antigens on endothelial cells induction of IL-6 induction of c-myc and c-fos induction of EGF receptor induction of IL-1 induction of TNF synthesis induction of GM-CSF synthesis increased prostaglandin and collagenase synthesis induction of acute phase protein C3 -
- Of particular importance is the activation of coagulation which occurs as a consequence of TNF activation of endothelium and also peripheral blood monocytes. Disseminated intravascular coagulation is associated with toxic shock and many cancers including gastro-intestinal cancer, cancer of the pancreas, prostate, lung, breast and ovary, melanoma, acute leukaemia, myeloma, myeloproliferative syndrome and myeloblastic leukaemia. Clearly modifications of TNF activity such that tumour regression activity remains intact but other undesirable effects such as activation of coagulation are removed or masked would lead to a more advantageous cancer therapy, while complete abrogation of TNF activity is sought for successful treatment of toxic shock.
- Segregation of hormonal activity through the use of site-specific antibodies (both polyclonal and monoclonal) can result in enhanced hormonal activity (Aston et al, 1989, Mol. Immunol.26 , 435). To date few attempts have been made to assign antigenicity or function to particular regions of the TNF molecule for which the three-dimensional structure is now known. Assignment of function to such regions would permit the development of MAbs and other ligands of therapeutic use. Polyclonal antibodies to
amino acids 1 to 15 have been reported to block Hela R19 cell receptor binding by TNF (Socher et al, 1987, PNAS 84 , 8829) whilst monoclonal antibodies recognising undefined conformational epitopes on TNF have been shown to inhibit TNF cytotoxicity in vitro (Bringman and Aggarwal, 1987,Hybridoma 6 , 489). However, the effects of these antibodies on other TNF activities is unknown. - The present inventors have produced panels of monoclonal antibodies active against human TNF and have characterised them with respect to their effects on the anti-tumour effect of TNF (bothin vitro and in vivo ), TNF receptor binding, activation of coagulation (both in vitro and in vivo ) and defined their topographic specificities.
- This approach has led the inventors to show that different topographic regions of TNF alpha are associated with different activities. Therefore the inventors enable the identification of antibodies or ligands which selectively enhance or inhibit TNF alpha activity, thereby providing for improved therapeutic agents and regimes including TNF alpha.
- In a first aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the following biological activities of the TNF are inhibited:1. Tumour regression;2. Induction of endothelial procoagulant;3. Induction of tumour fibrin deposition; 4. Cytotoxicity; and5. Receptor binding.
- In a preferred embodiment of all aspects the present invention the ligand is selected from the group consisting of antibodies, F(ab) fragments, restructured antibodies (CDR grafted humanised antibodies) single domain antibodies (dAbs), single chain antibodies, serum binding proteins, receptors and natural inhibitors. The ligand may also be a protein or peptide which has been synthesised and which is analogous to one of the foregoing fragments. However, it is presently preferred that the ligand is a monoclonal antibody or F(ab) fragment thereof.
- In a second aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the induction of endothelial procoagulant, tumour regression, induction of tumour fibrin deposition, cytotoxicity and receptor binding activities of the TNF are inhibited, the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of residues 1-18 (Val1 -Arg 2 -Ser 3 -Ser 4 -Ser 5 -Arg 6 -Thr 7 -Pro 8 -Ser 9 -Asp 10 -Lys 11 -Pro 12 -Val 13 -Ala 14 -His 15 -Val 16 -Val 17 -Ala 18 ) (SEQ ID NO:1), 58-65 (Ile 58 -Tyr 59 -Ser 60 -Gln 61 -Val 62 -Leu 63 -Phe 64 -Lys 65 ) (SEQ ID NO:2), 115-125 (Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125 ) (SEQ ID NO:3) and 138-149 (Arg 138 -Pro 139 -Asp 140 -Tyr 141 -Leu 142 -Asp 143 -Phe 144 -Ala 145 -Glu 146 -Ser 147 -Gly 148 -Gln 149 ) (SEQ ID NO:4), or the topographic region of residues 1-18 (Val 1 -Arg 2 -Ser 3 -Ser 4 -Ser 5 -Arg 6 -Thr 7 -Pro 8 -Ser 9 -Asp 10 -Lys 11 -Pro 12 -Val 13 -Ala 14 -His 15 -Val 16 -Val 17 -Ala 18 ) (SEQ ID NO:1), 108-128 (Gly 108 -Ala 109 -Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125- Leu 126 -Glu 127 -Lys 128 ) (SEQ ID NO:5), or the topographic region of residues 56-79 (Tyr 56 -Leu 57 -Ile 58 -Tyr 59 -Ser 60 -Gln 61 -Val 62 -Leu 63 -Phe 64 -Lys 65 -Gly 66 -Gln 67 -Gly 68 -Cys 69 -Pro 70 -Ser 71 -Thr 72 -His 73 -Val 74 -Leu 75 -Leu 76 -Thr 77 -His 78 -Thr 79 ) (SEQ ID NO:6), 110-127 (Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125 -Leu 126 -Glu 127 ) (SEQ ID NO:7) and 135-155 (Glu 135 -Asn 137 -Arg 138 -Pro 139 -Asp 140 -Tyr 141 -Leu 142 -Asp 143 -Phe 144 -Ala 145 -Glu 146 -Ser 147 -Gly 148 -Gln 149 -Val 150 -Tyr 151 -Phe 152 -Gly 153 -Ile 154 -Ile 155 ) (SEQ ID NO:16) is substantially prevented from binding to naturally occurring biologically active ligands.
- In a third aspect the present invention consists in a ligand which binds to human TNF in at least two regions selected from the group consisting predominately of the topographic region of residues 1-20 (SEQ ID NO:12), the topographic region of residues 56-77, the topographic region of residues 108-127 and the topographic region of residues 138-149 (SEQ ID NO:4).
- In a preferred embodiment of the third aspect of the present invention the ligand binds to human TNF in the topographic regions of residues 1-18 (SEQ ID NO:1), 58-65 (SEQ ID NO:2), 115-125 (SEQ ID NO:3) and 138-149 (SEQ ID NO:4). Such sequence regions are topographically represented in Fig. 24.
- In a further preferred embodiment of the third aspect of the present invention the ligand binds to human TNF in the topographic regions of residues 1-18 (Val1 -Arg 2 -Ser 3 -Ser 4 -Ser 5 -Arg 6 -Thr 7 -Pro 8 -Ser 9 -Asp 10 -Lys 11 -Pro 12 -Val 13 -Ala 14 -His 15 -Val 16 -Val 17 -Ala 18 ) (SEQ ID NO:1) and 108-128 (Gly 108 -Ala 109 -Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125- Leu 126 -Glu 127 -Lys 128 ) (SEQ ID NO:5). Such sequence regions are topographically represented in Fig. 24.
- In a further preferred embodiment of the second aspect of the present invention the ligand binds to human TNF in the topographic regions of residues 56-79 (SEQ ID NO:6), 110-127 (SEQ ID NO:7) and 136-155 (SEQ ID NO:8). Such sequence regions are topographically represented in Fig. 25.
- In a particularly preferred embodiment of the first, second and third aspects of the present invention the ligand is a monoclonal antibody selected from the group consisting of the monoclonal antibodies designated
MAb 1,MAb 47 andMAb 54. Samples of the hybridoma cell lines which produceMAb 1,MAb 54 and MAb 47 have been deposited with the European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom. MAb 1 was deposited on 3 August 1989 and accorded accession No. 89080301;MAb 54 was deposited on 31 August 1989 and accorded accession No. 89083103;MAb 47 was deposited on 14 December 1989 and accorded accession No. 89121402. - In a fourth aspect the present invention consists in a composition comprising TNF in combination with the ligand of the first, second or third aspect of the present invention, characterised in that the ligand is bound to the TNF.
- In a fifth aspect the present invention consists in a method of treating toxic shock comprising administering either the ligand of the first, second or third aspect of the present invention or the composition of the fourth aspect of the present invention.
- In a sixth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited; binding of TNF to receptors on endothelial cells is inhibited; the induction of tumour fibrin deposition and tumour regression activities of the TNF are enhanced; the cytotoxicity is unaffected and tumour receptor binding activities of the TNF are unaffected or enhanced.
- In a seventh aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited; the binding of the TNF to receptors on endothelial cells is inhibited, the induction of tumour fibrin deposition and tumour regression activities of the TNF are enhanced; and the cytotoxicity and receptor binding activities of the TNF are unaffected; the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of residues 1-30, 117-128 and 141-153 is substantially prevented from binding to naturally occurring biologically active ligands.
- In an eighth aspect the present invention consists of a ligand which binds to human TNF in the topographic regions of residues 1-30, 117-128 and 141-153.
- In a preferred embodiment of the eighth aspect of the present invention the ligand binds to human TNF in the topographic regions of residues 1-26, 117-128 and 141-153. Such sequence regions are topographically represented in Fig. 26.
- In a preferred embodiment of the sixth, seventh and eighth aspects of the present invention the ligand is the monoclonal antibody designated
MAb 32. A sample of the hybridoma producing MAb 32 was deposited with The European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 3 August 1989 and was accorded accession No. 89080302. - In a ninth aspect the present invention consists in a composition comprising TNF in combination with a ligand of the sixth, seventh or eighth aspects of the present invention characterised in that the ligand is bound to TNF. No previous documentation of administering MAbs with TNF in order to modify activity of the administered cytokine exists.
- In a tenth aspect the present invention consists in a method of treating tumours the growth of which is inhibited by TNF, comprising administering either the ligand of the sixth, seventh or eighth aspects of the present invention or the composition of the ninth aspect of the present invention.
- In an eleventh aspect the present invention consists in a ligand which binds to residues 1-18 (SEQ ID NO:1) of human TNF (peptide 301 (SEQ ID NO:1)).
- In a twelfth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand characterized in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited; the binding of TNF to receptors on endothelial cells is inhibited; the induction of tumour fibrin deposition and tumour regression activities of the TNF are enhanced; the cytotoxicity of the TNF are unaffected and tumour receptor binding activities of the TNF are unaffected or enhanced, the ligand binding to TNF such that the epitope of the TNF defined by the topographic region of residues 1-18 (SEQ ID NO:1) is substantially prevented from binding to naturally occurring biologically active ligands.
- In a thirteenth aspect the present invention consists in a composition comprising TNF in combination with a ligand of the eleventh or twelfth aspects of the present invention characterized in that the ligand is bound to the TNF.
- In a fourteenth aspect the present invention consists in a method of treating tumours the growth of which is inhibited by TNF, comprising administering either the ligand of the eleventh or twelfth aspect of the present invention or the composition of the thirteenth aspect of the present invention.
- In a fifteenth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the cytotoxicity and tumour regression activities of the TNF are unaffected; the induction of endothelial procoagulant and induction of tumour fibrin deposition activities of the TNF are inhibited and receptor binding activities of the TNF are unaffected.
- In a sixteenth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the cytotoxicity and tumour regression activities of the TNF are unaffected; the induction of endothelial procoagulant and induction of tumour fibrin deposition activities of the TNF are inhibited and the tumour receptor binding activities of the TNF are unaffected, the ligand binding to TNF such that the epitope of the TNF defined by the topographic regions of residues 22-40 (Ala22 -Glu 23 -Gly 24 -Gln 25 -Leu 26 -Gln 27 -Trp 28 -Leu 29 -Asn 30 -Arg 31 -Arg 32 -Ala 33 -Asn 34 -Ala 35 -Leu 36 -Leu 37 -Ala 38 -Asn 39 -Gly 40 ) (SEQ ID NO:9), 49-97 (Val 49 -Val 50 -Pro 51 -Ser 52 -Glu 53 -Gly 54 -Leu 55 -Tyr 56 -Leu 57 -Ile 58 -Tyr 59 -Ser 60 -Gln 61 -Val 62 -Leu 63 -Phe 64 -Lys 65 -Gly 66 -Gln 67 -Gly 68 -Cys 69 -Pro 70 -Ser 71 -Thr 72 -His 73 -Val 74 -Leu 75 -Leu 76 -Thr 77 -His 78 -Thr 79 -Ile 80 -Ser 81 -Arg 82 -Ile 83 -Ala 84 -Val 85 -Ser 86 -Tyr 87 -Gln 88 -Thr 89 -Lys 90 -Val 91 -Asn 92 -Leu 93 -Leu 94 -Ser 95 -Ala 96 -Ile 97 ) (SEQ ID NO:10), 110-127 (Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125- Leu 126 -Glu 127 ) (SEQ ID NO:7), and 136-153 (Ile 136 -Asn 137 -Arg 138 -Pro 139 -Asp 140 -Tyr 141 -Leu 142 -Asp 143 -Phe 144 -Ala 145 -Glu 146 -Ser 147 -Gly 148 -Gln 149 -Val 150 -Tyr 151 -Phe 152 -Gly 153 ) (SEQ ID NO:11) is substantially prevented from binding to naturally occurring biologically active ligands.
- In a seventeenth aspect the present invention consists in a ligand which binds to human TNF in the topographic regions of residues 22-40 (Ala22 -Glu 23 -Gly 24 -Gln 25 -Leu 26 -Gln 27 -Trp 28 -Leu 29 -Asn 30 -Arg 31 -Arg 32 -Ala 33 -Asn 34 -Ala 35 -Leu 36 -Leu 37 -Ala 38 -Asn 39 -Gly 40 ) (SEQ ID NO:9), 49-97 (Val 49 -Val 50 -Pro 51 -Ser 52 -Glu 53 -Gly 54 -Leu 55 -Tyr 56 -Leu 57 -Ile 58 -Tyr 59 -Ser 60 -Gln 61 -Val 62 -Leu 63 -Phe 64 -Lys 65 -Gly 66 -Gln 67 -Gly 68 -Cys 69 -Pro 70 -Ser 71 -Thr 72 -His 73 -Val 74 -Leu 75 -Leu 76 -Thr 77 -His 78 -Thr 79 -Ile 80 -Ser 81 -Arg 82 -Ile 83 -Ala 84 -Val 85 -Ser 86 -Tyr 87 -Gln 88 -Thr 89 -Lys 90 -Val 91 -Asn 92 -Leu 93 -Leu 94 -Ser 95 -Ala 96 -Ile 97 ) (SEQ ID NO:10), 110-127 (Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125- Leu 126 -Glu 127 ) (SEQ ID NO:7), and 136-153 (Ile 136 -Asn 137 -Arg 138 -Pro 139 -Asp 140 -Tyr 141 -Leu 142 -Asp 143 -Phe 144 -Ala 145 -Glu 146 -Ser 147 -Gly 148 -Gln 149 -Val 150 -Tyr 151 -Phe 152 -Gly 153 ) (SEQ ID NO:11). Such sequence regions are topographically represented in Fig. 27.
- In a preferred embodiment of the seventeenth aspect of the present invention the ligand binds to human TNF in the topographic regions of residues 22-40 (Ala22 -Glu 23 -Gly 24 -Gln 25 -Leu 26 -Gln 27 -Trp 28 -Leu 29 -Asn 30 -Arg 31 -Arg 32 -Ala 33 -Asn 34 -Ala 35 -Leu 36 -Leu 37 -Ala 38 -Asn 39 -Gly 40 ) (SEQ ID NO:9), 49-96 (Val 49 -Val 50 -Pro 51 -Ser 52 -Glu 53 -Gly 54 -Leu 55 -Tyr 56 -Leu 57 -Ile 58 -Tyr 59 -Ser 60 -Gln 61 -Val 62 -Leu 63 -Phe 64 -Lys 65 -Gly 66 -Gln 67 -Gly 68 -Cys 69 -Pro 70 -Ser 71 -Thr 72 -His 73 -Val 74 -Leu 75 -Leu 76 -Thr 77 -His 78 -Thr 79 -Ile 80 -Ser 81 -Arg 82 -Ile 83 -Ala 84 -Val 85 -Ser 86 -Tyr 87 -Gln 88 -Thr 89 -Lys 90 -Val 91 -Asn 92 -Leu 93 -Leu 94 -Ser 95 -Ala 96 ), 110-127 (Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125- Leu 126 -Glu 127 ) (SEQ ID NO:7), and 136-153 (Ile 136 -Asn 137 -Arg 138 -Pro 139 -Asp 140 -Tyr 141 -Leu 142 -Asp 143 -Phe 144 -Ala 145 -Glu 146 -Ser 147 -Gly 148 -Gln 149 -Val 150 -Tyr 151 -Phe 152 -Gly 153 ) (SEQ ID NO:11). These regions being proximate in the 3D structure of TNF alpha.
- In a preferred embodiment of the fifteenth, sixteenth and seventeenth aspects of the present invention the ligand is the monoclonal antibody designated
MAb 42. A sample of the hybridoma. cellline producing MAb 42 was deposited with The European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 3 August 1989 and was accorded accession No. 89080304, under the terms and conditions of the Budapest Treaty for the Deposit of Microorganisms for Patent purposes. - In an eighteenth aspect the present invention consists in a composition comprising TNF in combination with the ligand of the fifteenth, sixteenth or seventeenth aspects of the present invention, characterised in that the ligand is bound to the TNF.
- In a nineteenth aspect the present invention consists in a method of treating tumours inhibited by the action of TNF comprising administering the ligand of the fifteenth, sixteenth or seventeenth aspects of the present invention or the composition of the eighteenth aspect of the present invention.
- In a twentieth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the tumour fibrin deposition activity of the TNF is enhanced; the induction of endothelial procoagulant activity of the TNF is unaffected and the cytotoxicity, tumour regression and receptor binding activities of the TNF are inhibited.
- In a twenty-first aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the tumour fibrin deposition activity of the TNF is enhanced; the induction of endothelial procoagulant activity of the TNF is unaffected and the cytotoxicity, tumour regression and tumour receptor binding activities of the TNF are inhibited, the ligand binding to TNF such that the epitope of the TNF defined by the topographic regions of residues 12-22, 36-45, 96-105 and 132-157 is substantially prevented from binding to naturally occurring biologically active ligands.
- In a twenty-second aspect the present invention consists in a ligand which binds to human TNF in the topographic regions of residues 12-22, 36-45, 96-105 and 132-157. These regions are proximate in the 3D structure of TNF and are topographically represented in Fig. 28.
- In a preferred embodiment of the twentieth, twenty-first and twenty-second aspects of the present invention the ligand is the monoclonal antibody designated
MAb 25. A sample of the hybridoma cellline producing MAb 25 was deposited with the European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 14 December 1989 and was accorded accession No. 89121401. - In a twenty-third aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the tumour fibrin deposition activity of the TNF is enhanced and the cytotoxicity, tumour regression, induction of endothelial procoagulant and receptor binding activities of the TNF are inhibited.
- In a twenty-fourth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the tumour fibrin deposition activity of the TNF is enhanced and the cytotoxicity, tumour regression, induction of endothelial procoagulant and tumour receptor binding activities of the TNF are inhibited, the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of residues 1-20 (SEQ ID NO:12) and 76-90 (SEQ ID NO:13) is substantially prevented from binding to naturally occurring biologically active ligands.
- In a twenty-fifth aspect the present invention consists in a ligand which binds to human TNF in the topographic regions of residues 1-20 (SEQ ID NO:12) and 76-90 (SEQ ID NO:13). These regions are proximate in the 3D structure of TNF and are topographically represented in Fig. 29.
- In a preferred embodiment of the twenty-fifth aspect of the present invention the ligand binds to TNF in the topographic regions of residues 1-18 (SEQ ID NO:1) and 76-90 (SEQ ID NO:13).
- In a preferred embodiment of the twenty-third, twenty-fourth and twenty-fifth aspects of the present invention the ligand is the monoclonal antibody designated
MAb 21. A sample of the hybridoma cellline producing MAb 21 was deposited with the European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 25 January 1990 and was accorded accession No. 90012432. - In a twenty-sixth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the fibrin deposition activity of the TNF is unaffected and the cytotoxicity, tumour regression, induction of endothelial procoagulant and tumour receptor binding activities of the TNF are inhibited.
- In a twenty-seventh aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterized in that when it binds to TNF the tumour fibrin deposition activity of the TNF is unaffected and the cytotoxicity, tumour regression, induction of endothelial procoagulant and receptor binding activities of the TNF are inhibited, the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of residues 22-40 (Ala22 -Glu 23 -Gly 24 -Gln 25 -Leu 26 -Gln 27 -Trp 28 -Leu 29 -Asn 30 -Arg 31 -Arg 32 -Ala 33 -Asn 34 -Ala 35 -Leu 36 -Leu 37 -Ala 38 -Asn 39 -Gly 40 ) (SEQ ID NO:9), 69-97 (Cys 69 -Pro 70 -Ser 71 -Thr 72 -His 73 -Val 74 -Leu 75 -Leu 76 -Thr 77 -His 78 -Thr 79 -Ile 80 -Ser 81 -Arg 82 -Ile 83 -Ala- 84 -Val 85 -Ser 86 -Tyr 87 -Gln 88 -Thr 89 -Lys 90 -Val 91 -Asn 92 -Leu 93 -Leu 94 -Ser 95 -Ala 96 -Ile 97 ) (SEQ ID NO:14), 105-128 (Thr 105 -Pro 106 -Glu 107 -Gly 108 -Ala 109 -Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125 -Leu 126 -Glu 127 -Lys 128 ) (SEQ ID NO:15) and 135-155 (Glu 135 -Ile 136 -Asn 137 -Arg 138 -Pro 139 -Asp 140 -Tyr 141 -Leu 142 -Asp 143 -Phe 144 -Ala 145 -Glu 146 -Ser 147 -Gly 148 -Gln 149 -Val 150 -Tyr 151 -Phe 152 -Gly 153 -Ile 154 -Ile 155 ) (SEQ ID NO:16) is substantially prevented from binding to naturally occurring biologically active ligands.
- In a twenty-eighth aspect the present invention consists in a ligand which binds to human TNF in the topographic regions of residues 22-40 (SEQ ID NO:9), 69-97 (SEQ ID NO:14), 105-128 (SEQ ID NO:15) and 135-155 (SEQ ID NO:16). These regions are proximate in the 3D structure of TNF and are topographically represented in Fig. 30.
- In a preferred embodiment of the twenty-sixth, twenty-seventh and twenty-eighth aspects of the present invention the ligand is the monoclonal antibody designated
MAb 53. A sample of the hybridoma cellline producing MAb 53 was deposited with the European Collection of Animal Cell cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 25 January 1990 and was accorded accession No. 90012433, under the terms and conditions of the Budapest Treaty for the Deposit of Microorganisms for Patent purposes. - In a twenty-ninth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to the TNF tumour fibrin deposition, induction of endothelial procoagulant, cytotoxicity, tumour regression and receptor binding activities of the TNF are unaffected.
- In a thirtieth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the tumour fibrin deposition, induction of endothelial procoagulant, cytotoxicity, tumour regression and receptor binding activities of the TNF are unaffected, the ligand binding to TNF such that the epitope of the TNF defined by the topographic regions of residues 22 - 31 and 146 - 157 is substantially prevented from binding to naturally occurring biologically active ligands.
- In a thirty-first aspect the present invention consists in a ligand which binds to human TNF in the .topographic regions of residues 22-31 and 146-157. These regions are proximate in the 3D structure of TNF and are typographically represented in Fig. 31.
- In a preferred embodiment of the twenty-ninth, thirtieth and thirty-first-aspects of the present invention the ligand is the monoclonal antibody designated
MAb 37. A sample of the hybridoma cellline producing MAb 37 was deposited with the European Collection of Animal Cell Cultures (ECACC), Vaccine Research and Production Laboratory, Public Health Laboratory Service, Centre for Applied Microbiology and Research, Porton Down, Salisbury, Wiltshire SP4 OJG, United Kingdom on 3 August 1989 and was accorded accession No. 89080303. - In a thirty-second aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is unaffected and the cytotoxicity, tumour regression, tumour fibrin deposition, and receptor binding activities of the TNF are inhibited.
- In a thirty-third aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is unaffected and the cytotoxicity, tumour regression, tumour fibrin deposition and receptor binding activities of the TNF are inhibited, the ligand binding to the TNF such that the epitope of the TNF defined by the topographic regions of the residues 22-40 (SEQ ID NO:9) and 49-98 is substantially prevented from binding to naturally occurring biologically active ligands.
- In a thirty-fourth aspect the present invention consists in a ligand which binds to human TNF in at least one of the regions selected form the group consisting of the topographic region of residues 22-40 (SEQ ID NO:9), the topographic region of residues 49-98 and the topographic region of residues 69-97 (SEQ ID NO:14).
- In a preferred embodiment of the thirty-fourth aspect of the present invention the ligand binds to human TNF in the topographical region of residues 49-98. This region is topographically represented in Fig. 32.
- In a further preferred embodiment of the thirty-fourth aspect of the present invention the ligand binds to human TNF in the topographic regions of residues 22-40 (SEQ ID NO:9) and 70-87. These regions are proximate in the 3D structure of TNF and are topographically represented in Fig. 33.
- In a preferred embodiment of the thirty-second, thirty-third and thirty-fourth aspects of the present invention the ligand is
monoclonal antibody MAb 11 orMAb 12. - In a thirty-fifth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited.
- In a thirty-sixth aspect the present invention consists in a ligand capable of binding to human TNF, the ligand being characterised in that when it binds to TNF the induction of endothelial procoagulant activity of the TNF is inhibited, the ligand binding to TNF such that the epitope of the TNF defined by the topographical region of residues 108-128 (SEQ ID NO:5) is prevented from binding to naturally occurring biologically active ligands.
- In a thirty-seventh aspect the present invention consists in a ligand which binds to human TNF in the topographical region of residues 108-128 (Gly108 -Ala 109 -Glu 110 -Ala 111 -Lys 112 -Pro 113 -Trp 114 -Tyr 115 -Glu 116 -Pro 117 -Ile 118 -Tyr 119 -Leu 120 -Gly 121 -Gly 122 -Val 123 -Phe 124 -Gln 125- Leu 126 -Glu 127 -Lys 128 -) (SEQ ID NO:5).
- In a preferred embodiment of the thirty-fifth, thirty-sixth and thirty-seventh aspects of the present invention the ligand is selected from the group consisting of monoclonal antibodies designated
MAb 1,MAb 32,MAb 42,MAb 47,MAb 53 andMAb 54. - The biological activities of TNF referred to herein by the terms "Tumour Regression", "Induction of Endothelial Procoagulant", "Induction of Tumour Fibrin Deposition", "Cytotoxicity" and "Receptor Binding" are to be determined by the methods described below.
- The term "single domain antibodies" as used herein is used to denote those antibody fragments such as described in Ward et al (Nature, Vol. 341, 1989, 544 - 546) as suggested by these authors.
- In order that the nature of the present invention may be more clearly understood, preferred forms thereof will now be described with reference to the following example and accompanying figures in which:
- Brief Description of the Drawings
- Fig. 1 shows the results of a titration assay with
MAb 1 against TNF; - Fig. 2 shows
TNF MAb 1 scatchard plot and affinity determination; - Fig. 3 shows the effect of anti-TNF
monoclonal antibodies - Fig. 4 shows the effect of
MAb 1 on TNF-induced regression of a Meth A solid tumour; - Fig. 5 shows the effect of
MAbs - Fig. 6 shows the effect of anti-TNF MAbs on induction of endothelial cell procoagulant activity by TNF;
- Figs. 7a, 7b and 7c show incorporation of labeled fibrinogen into tumours of tumour-bearing mice and the effect of anti-TNF MAbs;
- Fig. 8 is a schematic representation of epitopes on TNF;
- Fig. 9 shows the effect of anti-TNF MAbs on TNF-induced regression of WEHI-164 tumours;
- Figs. 10a and 10b show the enhancement of TNF regression activity by
MAb 32 in two experiments; - Figs. 11a and 11b show the enhancement of TNF-induced tumour regression by MAb 32 - dose response at
day 1 andday 2; - Fig. 12 shows binding of radio labelled TNF to receptors on bovine aortic endothelial cells;
-
-
-
-
-
-
- Fig. 19 shows the effect on TNF-mediated tumour regressionin vivo by control MAb,
MAb 32 and univalent FAb' fragments ofMAb 32; -
- Figs. 21a, 21b and 21c show
MAb 32 reactivity with overlapping peptides of 10 AA length; and - Fig. 22 shows a schematic three dimensional representation of the TNF molecule.
- Fig. 23 shows topographically the region of residues 1-20 (SEQ ID NO:12), 56-77, 108-127 and 138-149 (SEQ ID NO:4);
- Fig. 24 shows topographically the region of residues 1-18 (SEQ ID NO:1) and 108-128 (SEQ ID NO:5);
- Fig. 25 shows topographically the region of residues 56-79 (SEQ ID NO:6), 110-127 (SEQ ID NO:7) and 136-155 (SEQ ID NO:8);
- Fig. 26 shows topographically the region of residues 1-26, 117-128 and 141-153;
- Fig. 27 shows topographically the region of residues 22-40 (SEQ ID NO:9), 49-97 (SEQ ID NO:10), 110-127 (SEQ ID NO:7) and 136-153 (SEQ ID NO:11);
- Fig. 28 shows topographically the region of residues 12-22, 36-45, 96-105 and 132-157;
- Fig. 29 shows topographically the region of residues 1-20 (SEQ ID NO:12) and 76-90 (SEQ ID NO:13);
- Fig. 30 shows topographically the region of residues 22-40 (SEQ ID NO:9), 69-97 (SEQ ID NO:14), 105-128 (SEQ ID NO:15) and 135-155 (SEQ ID NO:16);
- Fig. 31 shows topographically the region of residues 22-31 and 146-157;
- Fig. 32 shows topographically the region of residues 49-98;
- Fig. 33 shows topographically the region of residues 22-40 (SEQ ID NO:9) and 70-87;
- Fig. 34 shows results of an ELISA using samples containing varying levels of TNF; and
- Fig. 35 shows the effect of VHP3-VA2 on anti-tumour activity of TNF.
-
- In all experiments BALB/C female mice aged 10-12 weeks obtained from the CSIRO animal facility were used. Meth A solid tumour and Meth A ascites tumour cell lines were obtained from the laboratory of Dr. Lloyd J. Old (Sloan Kettering Cancer Centre) and the WEHI-164 fibrosarcoma line was obtained from Dr. Geeta Chauhdri (John Curtin School of Medical Research, Australian National University).Fusions and Production of Hybridomas
- Mice were immunised with 10 ug human recombinant TNF intra-peritoneally in Freund's complete adjuvant. One month later 10 ug TNF in Freund's incomplete adjuvant was administered. Six weeks later and four days prior to fusion selected mice were boosted with 10 ug TNF in PBS. Spleen cells from immune mice were fused with the myeloma Sp2/0 according to the procedure of Rathjen and Underwood (1986, Mol. Immunol. 23, 441). Cell lines found to secrete anti-TNF antibodies by radioimmunoassay were subcloned by limiting dilution on a feeder layer of mouse peritoneal macrophages. Antibody subclasses were determined by ELISA (Misotest, Commonwealth Serum Laboratories).Radioimmunoassay
- TNF was iodinated using lactoperoxidase according to standard procedures. Culture supernatants from hybridomas (50 ul) were incubated with 125I TNF (20,000 cpm in 50 ul) overnight at 4°C before the addition of 100 ul Sac-Cel (donkey anti-mouse/rat immunoglobulins coated cellulose, Wellcome Diagnostics) and incubated for a further 20 minutes at room temperature (20°C). Following this
incubation 1 ml of PBS was added and the tubes centrifuged at 2,500 rpm for 5 minutes. The supernatant was decanted and the pellet counted for bound radioactivity. Antibody-Antibody Competition Assays - The comparative specificities of the monoclonal antibodies were determined in competition assays using either immobilized antigen (LACT) or antibody (PACT) (Aston and Ivanyi, 1985, Pharmac. Therapeut. 27, 403).PACT
- Flexible microtitre trays were coated with monoclonal antibody (sodium sulphate precipitated globulins from mouse ascites fluid, 100 micrograms per ml in sodium bicarbonate buffer, 0.05M, pH 9.6) overnight at 4°C prior to blocking non-specific binding sites with 1% bovine serum albumin in PBS (BSA/PBS). The binding of 125I TNF to immobilised antibody was determined in the presence of varying concentrations of a second anti-TNF monoclonal antibody. Antibody and TNF were added simultaneously and incubated for 24 hours prior to washing with PBS (4 times) and counting wells for bound radioactivity. 100% binding was determined in the absence of heterologous monoclonal antibody while 100% competition was determined in the presence of excess homologous monoclonal antibody. All dilutions were prepared in BSA/PBS.LACT
- The binding of protein A purified, radiolabelled monoclonal antibodies to TNF coated microtitre wells was determined in the presence of varying concentrations of a second monoclonal antibody. Microtitre plates were coated with TNF (50 micrograms per ml) as described above. Quantities of competing antibodies (50 microlitres) were pre-incubated on plates for 4 hour at 4°C prior to addition of 125I monoclonal antibody (30,000 cpm) for a further 24 hours. Binding of counts to wells was determined after four washes with PBS. 100% binding was determined in the absence of competing antibody while 100% competition was determined in the presence of excess unlabelled monoclonal antibody.WEHI-164 Gytotoxicity Assay
- Bioassay of recombinant TNF activity was performed according to Espevik and Nissen-Meyer (1986, J. Immunol. Methods95, 99). The effect of the monoclonal antibody on TNF activity was determined by the addition of the monoclonal antibody to cell cultures at ABT90.Tumour Regression Experiments
- Modulation of TNF-induced tumour regression activity by monoclonal antibodies was assessed in three tumour models: the subcutaneous tumours WEHI-164 and Meth A sarcoma and the ascitic Meth A tumour. Subcutaneous tumours were induced by the injection of approximately 5 x 105 cells. This produced tumours of between 10 - 15 mm approximately 14 days later. Mice were injected intra-peritoneally with human recombinant TNF (10 micrograms) plus monoclonal antibody (200 microlitres ascites globulin) for four consecutive days. Control groups received injections of PBS alone or TNF plus monoclonal antibody against bovine growth hormone. At the commencement of each experiment tumour size was measured with calipers in the case of solid tumours or tumour-bearing animals weighed in the case of ascites mice. These measurements were taken daily throughout the course of the experiment. Radio-Receptor Assay
- WEHI-164 cells grown to confluency were scrape harvested and washed once with 1% BSA in Hank's balanced salt solution (HBSS, Gibco). 100 ul of unlabelled TNF (1-10,000 ng/tube) or monoclonal antibody (10 fold dilutions commencing 1 in 10 to 1 in 100,000 of ascitic globulin) was added to 50ul 125I TNF (50,000 cpm). WEHI cells were then added (200 microlitres containing 2 x 106 cells). This mixture was incubated in a shaking water bath at 37°C for 3 hours. At the completion of this
incubation 1 ml of HBSS was added and the cells spun at 16,000 rpm for 30 seconds. The supernatant was discarded and bound 125I TNF in the cell pellet counted. All dilutions were prepared in HBSS containing 1% BSA. Procoagulant Induction by TNF on Endothelial Cells - Bovine aortic endothelial cells (passage 10) were grown in RPMI-1640 containing 10% foetal calf serum (FCS), penicillin, streptomycin, and 2-mercaptoethanol at 37°C in 5% CO2 . For induction of procoagulant activity by TNF the cells were trypsinised and plated into 24-well Costar trays according to the protocol of Bevilacqua et al., 1986 (PNAS 83, 4533). TNF (0-500 units/culture) and monoclonal antibody (1 in 250 dilution of ascitic globulin) was added after washing of the confluent cell monolayer with HBSS. After 4 hours the cells were scrape harvested, frozen and sonicated. Total cellular procoagulant activity was determined by the recalcification time of normal donor platelet-poor plasma performed at 37°C, 100 microlitres of citrated platelet-poor plasma was added to 100 ul of cell lysate and 100 ul of calcium chloride (30nM) and the time taken for clot formation recorded. In some experiments tumour cell culture supernatant was added to endothelial cells treated with TNF and/or monoclonal antibody (final concentration of 1 in 2). Incorporation of 1251 Fibrinogen into Tumours of Mice Treated with TNF and Monoclonal Antibody
- In order to examine the effect of TNF and monoclonal antibodies on fibrin formationin vivo , BALB/c mice were injected subcutaneously with WEHI-164 cells (10 5 cells/animal). After 7 - 14 days, when tumours reached a size of approximately 1 cm in diameter, animals were injected intra-peritoneally with TNF (10 ug/animal) and 125I human fibrinogen (7.5ug/animal, 122UCi/mg Amersham) either alone or in the presence of monoclonal antibody to human TNF (200ul/animal ascitic globulin). Monoclonal antibody against bovine growth hormone was used as control monoclonal antibody. Two hours after TNF infusion incorporation of 125I fibrinogen into mouse tissue was determined by removing a piece of tissue, weighing it and counting the sample in a gamma counter.
- In all 13 monoclonal antibodies reacting with human TNF were isolated. These monoclonal antibodies were designated
MAb 1,MAb 11,MAb 12,MAb 20,MAb 21,MAb 25,MAb 31,MAb 32,MAb 37,MAb 42,MAb 47,MAb 53 andMAb 54. The effect of these monoclonal antibodies on the bioactivity of human TNF is set out in Table 2. - As can be seen from Table 2, whilst some monoclonal antibodies inhibit both anti-tumour activity and activation of coagulation by human TNF (
MAb MAb MAb 21 which inhibited tumour regression enhanced the activation of coagulation in vivo . -
TABLE 2 EFFECT OF MONOCLONAL ANTIBODIES ON TNF BIOACTIVITY MONOCLONAL ANTIBODY TNF 1:1 12 20 21 25 31 32 37 42 47 53 54 BIO- ACTIVITY Cytotoxity −− − 0 − − 0 0 0 0 − − − Tumour −− − 0 − − 0 + 0 0 − − − Regression Induction of 0 0 0 0 0 Procoagulant (Endothelial) Fibrin + + + + + 0 0 Deposition (tumour) Receptor −− − 0 − − 0 +/ 0 0 − − − Binding 0* (WEHI-164) -
- + Enhancement0 No effect- Inhibition* Depending on MAb concentration in the case of WEHI-164 tumour cells and tumour type (see Figs. 3, 13-17).
-
MAbs MAb 32 are more appropriate as agents for coadministration with TNF during cancer therapy since they do not inhibit tumour regression but do inhibit activation of coagulation. This form of therapy is particularly indicated in conjunction with cytotoxic drugs used in cancer therapy which may potentiate activation of coagulation by TNF (e.g. vinblastin, acyclovir, IFN alpha, IL-2, actinomycin D, AZT, radiotherapy, adriamycin, mytomycin C, cytosine arabinoside, dounorubicin, cis-platin, vincristine, 5-flurouracil, bleomycin, (Watanabe N et al. 1988 Immunopharmacol. Immunotoxicol. 10 117-127) or in diseases where at certain stages TNF levels are low (e.g. AIDS) and where individuals may have AIDS associated cancer e.g. Kaposi sarcoma, non-Hodgkins lymphoma and squamous cell carcinoma. - Monoclonal antibody MAb l has been found to have the following characteristics:
- 1. Binds human recombinant TNF alpha, but not human lymphotoxin (TNF beta) or human interferon. Similarly
MAb 1 does not cross-react with recombinant murine TNF (Fig. 1). - 2.
MAb 1 is of the immunoglobulin type IgGl, K with an apparent affinity of 4.4 x 10- 9 moles/litre (Fig. 2). - 3. MAb neutralises the cytotoxic effect of recombinant human TNF on WEHI-164 mouse fibrosarcoma cells in culture. One microgram of-MAb l neutralizes approximately 156.25 units of TNFin vitro (Fig. 3).
- 4.
MAb 1 neutralises the tumour regression activity of TNF in the following mouse tumour models in vivo ; WEHI-164 subcutaneous solid tumour, the Meth A subcutaneous solid tumour and the Meth A ascites tumour (Figs. 4, 5 and 9). - 5. MAbl prevents cerebral damage caused by human TNF in mice infected with malarial parasites.
- 6. In
radioreceptor assays MAb 1 prevents binding of TNF to receptors on WEHI-164 cells (Table 3). - 7.
MAb 1 inhibits the induction of procoagulant activity (tissue factor) on cultured bovine aortic endothelial cells (Fig. 6). - 8.
MAb 1 reduces the uptake of 125I fibrinogen into tumours of mice treated with TNF (Figs. 7a-c). - 9.
MAb 1 competes for binding of 125I TNF and thus shares an overlapping epitope with the following monoclonal antibodies: 21, 25, 32, 47, 54 and 37. - 10.
MAb 1 does not compete for binding of 1251 TNF with the following monoclonal antibodies: 11, 12, 42, 53, 31 and 20 (Fig. 8). -
TABLE 3 RADIORECEPTOR ASSAY: INHIBITION OF TNF BINDING TO WEHI-164 CELLS BY MAb 1TREATMENT % SPECIFIC BINDING MAB 1 1/10 0 1/100 21 1/1,000 49 1/10,000 73 1/100,000 105 COLD TNF(NG/TUBE) 10,000 0 5,000 0 1,000 0 500 10 100 11 10 64 1 108 0 100 -
-
MAb 32 is an IgG2b,K antibody with an affinity for human TNF alpha of 8.77 x 10 -9 moles/litre as determined by Scatchard analysis. This monoclonal antibody does not react with either human TNF beta (lymphotoxin) or mouse TNF alpha. - As shown in Figure 3
MAb 32 does not inhibit TNF cytotoxicity in vitro as determined in the WEHI-164 assay. -
Monoclonal antibody 32 variably enhances TNF-induced tumour regression activity against WEHI-164 fibrosarcoma tumours implanted subcutaneously into BALB/c mice at a TNF dose of 10μg/day (Figs. 10 a-b and 11a-b). This feature is not common to all monoclonal antibodies directed against TNF (Fig. 9) but resides within the binding site specificity of MAb 32 (Fig. 8) which may allow greater receptor mediated uptake of TNF into tumour cells (see Table 4). -
TABLE 4 BINDING OF TNF TO RECEPTORS ON WEHI-164 CELLS IN THE PREUNRE OF MAb 32% BINDING125I TNF MAB DILUTION CONTROL MAE MAB 32 1/10 35 .41 1/100 74 88 1/1000 101 83 1/10,000 92 82 1/100,000 97 93 -
- Enhancement of TNF activity by
Mab 32 at lower doses of TNF is such that at least tenfold less TNF is required to achieve the same degree of tumour regression (see Figs. 11a-b and 18). The results forday 1, 2.5ug and 1ug TNF andday 2, 5ug, 2.5ug and 1ug are statistically significant in a t-test at p<.01 level. This level of enhancement also increases the survival rate of recipients since the lower dose of TNF used is not toxic. Fig. 19 shows that univalent Fab fragments ofMab 32 also cause enhancement of TNF-induced tumour regression in the same manner as whole Mab 32 (see below). -
MAb 32 inhibits the expression of clotting factors on endothelial cells normally induced by incubation of the cultured cells with TNF (see Fig. 6). This response may be mediated by a previously unidentified TNF receptor which is distinct to the receptor found on other cells. - Conversely,
MAb 32 enhances the in vivo activation of coagulation within the tumour bed as shown by the incorporation of radiolabelled fibrinogen (Figs. 7a-c). This may be due to activation of monocytes/macrophage procoagulant and may provide further insight into the mechanism of TNF-induced tumour regression. - The results obtained with
MAb 32 are shown in comparison to other anti-TNF MAbs in Table 2. - The ability of
MAb 32 andMAb 47 to inhibit the binding of TNF to endothelial cells was also assessed. Bovine aortic endothelial (BAE) cells (passage 11) were plated in 24-well culture dishes (Corning) which had been pre-coated with gelatin (0.2%) and grown to confluence in McCoys 5A (modified) medium supplemented with 20% foetal calf serum. For the radio-receptor assay all dilutions (of cold TNF and MAbs) were made in this medium. The BAE cells were incubated for one hour in the presence of either cold TNF (0 to 100ng) or MAb (ascites globulins diluted 1/100 to 1/100,000) and iodinated TNF (50,000 cpm). At the end of this time the medium was withdrawn and the cells washed before being lysed with 1M sodium hydroxide. The cell lysate was then counted for bound radioactive TNF. Specific binding of labelled TNF to the cells was then determined. - The results obtained in this assay with
MAb 32,MAb 47 and a control MAb are set out in Figure 12. - The results obtained in the clotting assay using BAE cells cultured in the presence of TNF and anti-TNF MAb correlate with the results obtained in the BAE radioreceptor assay i.e. MAbs which inhibit the induction of clotting factors on the surface of endothelial cells (as shown by the increase in clotting time compared to TNF alone) also inhibit the binding of TNF to its receptor. This is exemplified by
MAbs -
MAb 32, which does not inhibit TNF binding to WEHI-164 cells, does inhibit binding of TNF to endothelial cells. This result provides support for the hypothesis that distinct functional sites exist on the TNF molecule and that these sites interact with distinct receptor subpopulations on different cell types. Thus ligands which bind to defined regions of TNF are able to modify the biological effects of TNF by limiting its binding to particular receptor subtypes. - As shown in Figure 12
MAb 47 is a particularly potent inhibitor of TNF interaction with endothelial cells, the percentage specific binding at a dilution of 1/100 to 1/10,000 being effectively zero. RECEPTOR BINDING STUDIES OF HUMAN TNF COMPLEXED WITHMAB 32 ON HUMAN CARCINOMA CELL LINES IN VITRO -
MAb 32 has been shown to enhance the anti-tumour activity of human TNF. The mechanisms behind the enhancement may include restriction of TNF binding to particular (tumour) receptor subtypes but not others (endothelial) with subsequent decrease in TNF toxicity to non-tumour cells. This mechanism does not require enhanced uptake of TNF by tumour cells in in vitro assays. In addition,MAb 32 also potentiates the binding of human TNF directly to TNF receptors on certain human carcinoma cell lines. MATERIALS AND METHODS - The following human carcinoma cell lines have been assayed for enhanced receptor-mediated uptake of TNF in the presence of MAb 32: B10, CaCo, HT 29, SKC01 (all colon carcinomas), 5637 (Bladder carcinoma), MM418E (melanoma), IGR3 (melanoma), MCF 7 (breast carcinoma). The cells were propogated in either RPMI-1640 (MM418E) DMEM (CaCo and IGR 3) or Iscoves modified DMEM (B10, HT 29, SK01, S637, MCF 7) supplemented with 10% foetal calf serum, penecillin/streptomycin and L-glutamine. Receptor assays were performed as previously described for endothelial cells except that the incubation time with iodinated TNF was extended to 3 hours for all but the B10 cells for which the radiolabel was incubated for 1 hour.RESULTS
- Enhanced TNF uptake was observed in the presence of MAb32 by the melanoma cell lines tested MM418E and IGR 3 (Figs. 13 and 14), the bladder carcinoma 5637 (Fig. 15), and the breast carcinoma MCF 7 (Fig. 16).
MAb 32 did not affect TNF-receptor interaction in any of the other cell lines as shown by B 10 (Fig. 17)MAb 47, which has been shown to inhibit TNF binding to WEHI-164 cells and endothelial cells, and which also inhibits TNF-mediated tumour regression was found to markedly inhibit TNF binding to all the cell lines tested (Figs. 13-17). CONCLUSIONS - Receptor binding analyses have indicated a second mechanism whereby
MAb 32 may potentiate the anti-tumour activity of TNF. This second pathway for enhancement of TNF results from increased uptake of TNF by tumour all receptors in the presence ofMAb 32. ENHANCEMENT OF TNF-MEDIATED TUMOUR REGRESSION INVIVO BY MAB 32 OR UNIVALENT FAB' FRAGMENTS OFMAB 32 - Tumour regression studies were carried out as described above in mice carrying WEHI-164 subcutaneous tumours (N = 5 animals/group). Tumour size was determined daily during the course of the experiment. The results obtained using
MAb 32 are set out in Fig. 22 and show the mean +/- SD% change in tumour area at the completion of treatment (day 2) ( MAb 32: control MAb: *MAb 47). Differences observed between control MAb-TNF and MAb 32-TNF treated groups are statistically significant in a T-test at the p-<.0l level. - The results using the univalent FAb fragments of
MAb 32 are shown in Fig. 19. Tumour size was determined daily during the course of the experiment. The results show the mean SD% change in tumour area at the completion of treatment (day 2). Differences between the control MAb-10F and MAb 32-TNF treated groups are statistically significant in a T-test at the P-<.01 level. TNF INDUCED TUMOUR REGRESSION : EFFECT OF ANTI PEPTIDE 301 SERA - Fig. 20 shows the percent change in tumour area in tumour-bearing mice treated for three days with TNF plus control MAb (antibody against bovine growth hormone), TNF plus
MAb 32 or TNF plus antiserum (globulin fraction) against peptide 301 (SEQ ID NO:1). In an upaired T-test the control group is significantly different from both of the test groups (MAb 32, antiserum 301) while theMAb 32 and peptide antiserum 301 groups are not significantly different from each other. (control vsMAb 32, p<.002; control vs antipeptide 301, p<.025). Thus antisera raised using a peptide which comprises part of theMAb 32 specificity, also causes TNF enhancement of tumour regression. - As shown in Fig. 9 competition binding studies has shown that the thirteen monoclonal antibodies can be sub-divided into two main groups, namely
MAbs MAbs - 1. Overlapping peptides of 7 and 10 amino acid residues long were synthesized on polypropylene pins according to the method of Geysenet al. , 1984, PNAS 81, 3998-4002. The overlap was of 6 and 9 residues respectively and collectively the peptides covered the entire TNF amino acid sequence. The peptides were tested for reactivity with the MAbs by ELISA. MAbs which had TNF reactivity absorbed from them by prior incubation with whole TNF were also tested for reactivity with the peptides and acted as a negative control.
- 2. Longer peptides of TNF were synthesized as described below. These peptides were used to raise antisera in sheep using the following protocol. Merino sheep were primed with TNF peptide conjugated to ovalbumin and emulsified in Freunds Complete adjuvant and boosted at 4 weekly intervals with peptide-ovalbumin and sera assayed for the presence of anti-TNF antibody by radioimmunoassay. Of the peptides shown only peptides 275 (SEQ ID NO:17), 301 (SEQ ID NO:1), 305 (SEQ ID NO:20), 306 (SEQ ID NO:21) and 307 (SEQ ID NO:9) elicited sera reacting with whole TNF. The positive sera were then used in competitive binding assays (PACT assays) with the MAbs.
- The following peptides were synthesised and are described using the conventional three letter code for each amino acid with the TNF sequence region indicated in brackets.
-
- H-Ala-Lys-Pro-Trp-Tyr-Glu-Pro-Ile-Tyr-Leu-OH (111-120) (SEQ ID NO:17)
-
- H-Val-Arg-Ser-Ser-Ser-Arg-Thr-Pro-Ser-Asp-Lys-Pro-Val-Ala-His-Val-Val-Ala-OH (1-18) (SEQ ID NO:1)
-
- H-Leu-Arg-Asp-Asn-Gln-Leu-Val-Val-Pro- Ser-Glu-Gly-Leu-Tyr-Leu-Ile-OH (43-58) (SEQ ID NO:18)
-
Peptide 30 4 - H-Leu-Phe-Lys-Gly-Gln-Gly-Cys-Pro-Ser-Thr-His-Val-Leu-Leu-Thr-His-Thr-Ile-Ser-Arg-Ile-OH (63-83) (SEQ ID NO:19)
-
- H-Leu-Ser-Ala-Glu-Ile-Asn-Arg-Pro-Asp-Tyr-Leu-Asp-Phe-Ala-Glu-Ser-Gly-Gln-Val-OH (132-150) (SEQ ID NO:20)
-
- H-Val-Ala-His-Val-Val-ala-Asn-Pro-Gln-Ala-Glu-Gly-Gln-Leu-OH (13-26) (SEQ ID NO:21)
-
- H-Ala-Glu-Gly-Gln-Leu-Gln-Trp-Leu-Asn-Arg-Arg-Ala-Asn-Ala-Leu-Leu-Ala-Asn-Gly-OH (22-40) (SEQ ID NO:9)
-
- H-Gly-Leu-Tyr-Leu-Ile-Tyr-Ser-Gln-Val-Leu-Phe-Lys-Gly-Gln-Gly-OH (54-68) (SEQ ID NO:22)Peptide 309
- H-His-Val-Leu-Leu-Thr-His-Thr-Ile-Ser-Arg-Ile-Ala-Val-Ser-Tyr-Gln-Thr-Lys-Val-Asn-Leu-Leu-COOH (73-94) (SEQ ID NO:23)
-
- H-Thr-Ile-Ser-Arg-Ile-Ala-Val-Ser-Tyr-Gln-Thr-COOH (79-89) (SEQ ID NO:24)
- These peptides were synthesised using the following general protocol.
- All peptide were synthesised using the Fmoc-polyamide method of solid phase peptide synthesis (Atherton et al, 1978, J.Chem.Soc.Chem.Commun., 13, 537-539). The solid resin used was PepSyn KA which is a polydimethylacrylamide gel on Kieselguhr support with 4-hydroxymethylphenoxy- acetic acid as the functionalised linker (Athertonet al. , 1975, J.Am.Chem. Soc. 97, 6584-6585).
- The carboxy terminal amino acid was attached to the solid support by a DCC/DMAP-mediated symmetrical-anhydride esterification.
- All Fmoc-groups were removed by piperidine/DMF wash and peptide bonds were formed either via pentafluorophenyl active esters or directly by BOP/NMM/HOBt (Castro's reagent) (Fournier et al, 1989, Int. J.Peptide Protein Res., 33, 133-139) except for certain amino acids as specified in Table 5.
- Side chain protection chosen for the amino acids was removed concomittantly during cleavage with the exception of Acm on cysteine which was left on after synthesis.
-
TABLE 5 AMINO ACID PROTECTING GROUP COUPLING METHOD ARG MTR OR PMC EITHER ASP OBUT EITHER CYS ACM (PERMANENT) EITHER GLU OBUT EITHER HIS BOC OPFP ONLY LYS BOC EITHER SER BUT BOP ONLY THR BUT BOP ONLY TYR BUT EITHER TRP NONE EITHER ASN NONE OPFP ONLY GLN NONE OPFP ONLY -
- Peptide 301 (SEQ ID NO:1), 302 (SEQ ID NO:18), 305 (SEQ ID NO:20) are cleaved from the resin with 95% TFA and 5% thioanisole (1.5 h) and purified on reverse phase C4 column, (Buffer A - 0.1% aqueous TFA, Buffer B - 80
% ACN 20% A). - Peptide 303, 304 (SEQ ID NO:19) are cleaved from the resin with 95% TFA and 5% phenol (5-6 h) and purified on reverse phase C4 column. (Buffers as above).
- Peptide 306 (SEQ ID NO:21), 308 (SEQ ID NO:22) are cleaved from the resin with 95% TFA and 5% water (1.5 h) and purified on reverse phase C4 column. (Buffers as above).
- Peptide 309 (SEQ ID NO:23) was cleaved from the resin with 95% TFA and 5% thioanisole and purified on reverse phase C4 column. (Buffers as above).
- Peptide 307 (SEQ ID NO:9) was cleaved from the resin with a mixture of 93% TFA, 3.1% Anisole, 2.97% Ethylmethylsulfide and 0.95% Ethanedithiol (3 h) and purified on reverse phase C4 column. (Buffers as above).RESULTS
- Typical results of MAb ELISA using the 7 and 10 mers are shown in Figs. 21a-c. Together with the results of PACT assays using the sheep anti-peptide sera (shown in Table 6) the following regions of TNF contain the binding sites of the anti-TNF MAbs.
-
MAB 1.residues 1-18 (SEQ ID NO:1), 58-65 (SEQ ID NO:2), 115- 125 (SEQ ID NO:3), 138-149 (SEQ ID NO:4) MAB 11: residues 49-98 MAB 12: residues 22-40 (SEQ ID NO:9), 70-87 MAB 21: residues 1-18 (SEQ ID NO:1), 76-90 (SEQ ID NO:13) MAB 25: residues 12-22, 36-45, 96-105, 132-157 MAB 32: residues 1-26, 117-128, 141-153 MAB 37: residues 22-31, 146-157 MAB 42: residues 22-40 (SEQ ID NO:9), 49-96. 110-127 (SEQ ID NO:7), 136-153 (SEQ ID NO:11) MAB 47: residues 1-18 (SEQ ID NO:13), 108-128 (SEQ ID NO:5) MAB 53: residues 22-40 (SEQ ID NO:9), 69-97 (SEQ ID NO:14), 105-128 (SEQ ID NO:15), 135-155 (SEQ ID NO:16) MAB 54: residues 56-79 (SEQ ID NO:6), 110-127 (SEQ ID NO:7), 136-155 (SEQ ID NO:8) -
-
TABLE 6 COMPETITIVE BINDING OF TNF BY ANTI-TNF MONOCLONES IN THE PRESENCE OF ANTI-PEPTIDE SERA MAB/PEPTIDE SERA 275 301 305 306 307 1 + 11 +/ 12 − + − − ++ 21 − ++ − − − 25 − + − − − 32 − ++++ + + − 37 − + +/− − − 47 − + − − − 53 − + − − + 54 − + − − − 42 − + + − − -
- Note 1: - indicates no competition, + indicates slight competition at high concentration of anti-peptide antisera (1/50), ++++ indicates strong competition by anti-peptide sera equal to that of the homologous MAb.
- Note 2: Only peptide which elicited sera recognising whole TNF were used in this assay.
- As will be understood by persons skilled in this field the ligands of the present invention can be used in assays of biological fluids for detecting the presence of and quantifying the concentration of TNF in a sample. One means by which this may be achieved is by using the ligands of the present invention in conventional ELISAs. Set out below is an example of such an assay.
-
TNF ELISA REAGENTS CARBONATE COATING BUFFER, PH 9.6 NA2CO3 1.6 g NAHCO3 2.9 g Add 800 ml dH2O; pH to 9.6 then make to 1 L with dH2O BLOCKING BUFFER BSA 1 g PBS 100 mL Add BSA to PBS and allow to dissolve fully before using Store at 4° C. WASH BUFFER (0.05% TWEEN/PBS) Tween 200.5 g PBS 1 L Add Tween to PBS and mix thoroughly before use CITRATE BUFFER Citric Acid 2.1 g in 50 mL Add solutions together and adjust pH to 1H2O dH2O 4.0-4.2 Trisodium 1,478 in 50 mL Citrate 2H2O dH2O - METHOD
- • Coat ELISA plates with equal proportions of MAbl, MAb32 and MAb54 to human TNF in carbonate coating buffer. The total immunoglobulin concentration should be 20Τg/mL and 100ΤL is added to each well. Cover plates and incubate.
- • Wash plates 3x with PBS/Tween.
- • Incubate plates with 250ΤL/well blocking buffer
- • Wash plates 3x with PBS/Tween.
- • Add 100ΤL sample or TNF standards, diluted in blocking buffer where required, to plates, then cover and incubate.
- • Wash plates 3x with PBS/Tween.
- • Add 100ΤL biotinylated antibody mix (equal proportions of biotinylated
monoclonal antibodies 11 & 42 to human TNF) at a final concentration of 10Τg/mL in blocking buffer to each well, cover and incubate. - • Wash plates 3x with PBS/Tween.
- • Add 100ΤL/well streptavidin-peroxidase (Amersham product No. RPN 1231) at 1/2,000 in blocking buffer, then cover and incubate.
- • Wash plates 3x with PBS/Tween.
- • Add 100ΤL/well biotinylated anti-streptavidin monoclonal antibody (Jackson Immunoresearch) at 1/40,000 in blocking buffer, cover and incubate.
- • Wash plates 3x with PBS/Tween.
- • Add 100ΤL/well streptavidin-peroxidase at 1/2,000 in blocking buffer, cover and incubate.
- • Wash plates 3x with PBS/Tween.
- • Add 100ΤL/well peroxidase substrate (ABTS) at lmg/mL in citrate buffer containing O.3ΤL/
ml H 2 0 2 and leave to incubate at room temperature for up to 1 hour. - NB: Substrate solution should be prepared immediately prior to use.
- * Read absorbance at 405nm, and compare sample readings with TNF standard curve to determine TNF levels.
-
BIOTINYLATION OF IGG 50 MM BICARBONATE BUFFER, PH 8.5 NA2CO 3 1.6 g NAHCO3 2.9 g in 11 dH2O, adjust ph with HCl 0.1 PHOSPHATE BUFFER, PH 7.0 - METHOD
- • Prepare immunoglobulins by purifying on a protein A column, then freeze-drying.
- • Reconstitute the immunoglobulins with 50mM bicarbonate buffer to a concentration of 20mg/mL, in a clean glass test tube.
- • Add 0.4mg biotin per 20mg Ig directly to the tube.
- • Place the test tube on ice and incubate for 2 hours.
- • Remove the unreacted biotin by centrifuging at 1000g for 15-30 minutes in a Centricon-30 microconcentrator. Dilute the sample in 0.1M phosphate buffer and repeat the centrifugration twice.
- • Make the sample up to the original volume with phosphate buffer, add 0.1% NaN3 and store at 4°C until used.
- The results obtained in such an assay using samples containing known amounts of TNF is shown in Figure 34.
- As mentioned above the specific mouse monoclonal antibodies disclosed in this application can be humanised if required. A number of methods of obtaining humanised antibodies are set out in PCT/GB92/01755 (WO93/06213). A humanised version of MAb32 designated VHP3-VA2 was produced by the method disclosed in PCT/GB92/01755. Briefly, this antibody was produced as follows:
- 1Cloning and display of the V genes of
MAb 32 on phage Cloning of the V-genes of MAb32: - The genes of the mouse MAb32 antibody (IgG2b, Kappa) were rescued by PCR essentially as described (Clarksonet al. , 1991, in "PCR: A Practical Approach" eds. M. J. McPherson et al. , IRL Press, Oxford, pp 187-214) using the primers VH1BACk and VH1FOR2 for the VH gene and Vk2BACK and VK4FOR for the VL gene and the polymerase chain reaction (PCR, R.K. Saiki et al. , 1985, Science 230, p1350). The mouse VH and Vk genes were assembled for expression as scFv fragments by PCR assembly (Clarkson et al ., supra ) amplified with VH1BACKSfi and VFFOR4NOT and ligated into phagemid pHEN1 (H.R. Hoogenboom et al. , 1991 Nucl. Acids. Res. 19 pp4133-4137) as a SfiI-NotI cut restriction fragment, and electroporated into E.coli HB2151 cells. Of 96 clones analysed by ELISA (see below), 9 secreted TNF-binding soluble scFv fragments. Sequencing revealed in all clones a mouse VH of family IIB and a mouse Vk of family VI (E.A. Kabat et al. , 1991 Sequences of Proteins of Immunological Interest, US Public Health Services). Nucleotide mutations which were probably introduced by the PCR were detected by comparing the 9 sequences, and a clone with consensus sequence and binding activity (scFv-MAb32) chosen for further cloning experiments.Recloning of the MAb32 V-genes for soluble expression:
- The murine V-genes were recloned for soluble expression of heavy (Fd, VHCH1) or light chain, by linking the mouse V-genes to the human CH1 (of the mu-isotype) or human Ck gene respectively by splice overlap extension. The mouse Vk gene was amplified from scFv-MAb32 DNA with oligonucleotides MOJK1FORNX (binds in joining region of V-gene and MVKBASFI (binds in 5' region and adds Sfil restriction site); the human Ck was obtained by PCR from a mouse-human chimaeric light chain gene (of NQ10.12.5, described in Hoogenboom et al., 1991supra ), with oligonucleotides MOVK-HUCK-BACK (binds in 5' of human Ck and is partially complementary with
mouse Jk 1 region) and HUCKNOT16NOMYC (sits in 3' end of human Ck, retains the terminal cysteine, and tags on a NotI restriction site) as in Clackson et al. , 1991 using a two fragment assembly. For linkage of the DNA fragments, the two PCR fragments were mixed and amplified with MVKBASFI and HUCKNOT16NOMYC. The chimaeric VkCk gene was subsequently cloned as a SfiI-NotI fragment in pUC19 derivative containing the pe1B signal peptide sequence and appropriate cloning sites for soluble expression of the light chain (pUC19-pe1B-myc). Similarly, the mouse VH gene (amplified from scFv-MAb32 with LMB3 and VH1FOR-2) was combined by splicing by overlap extension PCR with the human u-CH1 domain (amplified from human IgM-derived cDNA (Marks et al. , 1991, supra ; WO 92/01047) with Mo-VH-Ku-CH1 and HCM1FONO, and cloned as SfiI-NotI fragment into a pUC19-pe1B-myc for soluble expression of a tagged chain. Display of the MAb32 antibody on phage : - The chimaeric light chain was displayed on phage fd by reamplification of the mouse/human chimaeric chain with HUCKCYSNOT and MVKBAAPA and cloning into fd-tet-DOG1 as an ApaLI-NotI fragment. Cells harbouring a plasmid with the heavy Fd chain gene were grown in 2xTY containing AMP-GLU (1%) to logarithmic phase (OD600 of 0.5) and infected with a 20-fold excess of light-chain displaying phage. After 45 min at 37°C without shaking and 45 min at 37°C with shaking in the 2xTY, ampicillin (100 Τg/ml).
Glucose 1% medium, a sample was diluted into 50-fold volume of prewarmed (37°C) 2 x TY, ampicillin (100 Τg/ml) and tetracyclin (15 Τg/ml), grown for 1 hr at 37°C and then overnight at 30°C (shaking). Phage particles collected from the supernatant of such culture displayed TNF-binding Fab fragments anchored through the light chain on their surface. - Similarly, the reversed configuration was made. The heavy chain VHCH1 fragment was cloned into fd-tet-DOG1 (after amplification of the Fd chain gene from the mouse/human chimeric construct with VH1BACKAPA and HCM1FONO), and phage used to infect cells capable of producing soluble light chain. Phage particles collected from the supernatant of such culture displayed TNF-binding Fab fragments anchored through the heavy chain VHCH1 fragment on their surface.Properties of
MAb 32 fragments displayed on phage: - The V-genes of the murine antibody MAb32 were cloned by amplifying the hybridoma V-genes, cloning the VH and Vk genes as scFv fragments in phagemid pHEN1 as above. Antibody scFv fragments which bind to TNF were identified by ELISA. The mouse VH gene was recloned in pUC19-pe1B-myc for soluble expression as a mouse VH linked to human mu-CH1, while the light chain was recloned with the human Ck domain in vector fd-tet-DOG1 as a fusion with g3p. When cells harbouring the heavy chain construct were infected with the fd-phage carrying the light chain, phage particles emerged which carried light chain-g3p associated with the fd heavy chain. Indeed, binding to TNF and the 301 peptide was retained, as judged by ELISA with phage displaying the mouse-human chimaeric Fab fragment. In the phage ELISA, the background signal of phage carrying the light chain only was a lightly higher than wild-type fd-tet-DOG1 phage, but always lower than the signal obtained with Fab-displaying phage. Similarly, TNF binding phage was made with the heavy chain VHCH1 fragment anchored on phage, and the light chain provided as a soluble fragment. Hence, MAb32 is functional in the dual combihatorial format in both display orientations.2 Chain shuffling by epitope imprinted selection (EIS) Construction of One chain-Libraries :
- Kappa, lambda light chain and Mu-specific cDNA was made from the mRNA prepared from the peripheral blood lymphocytes from two healthy donors essentially as in Markset a1 ., 1991, supra. The first-strand cDNA synthesis was performed with oligonucleotides HCMlFO, HUCLCYS and HUCKCYS for Mu-specific, lambda and kappa libraries respectively. The VH-
CH 1 repertoire was amplified from this cDNA with oligonucleotides HCM1FO and six family specific VHBACK primers (as in Marks et a1. , 1991, supra), reamplified with a NotI-tagged forward primer (HCM1FONO) and ApaLI tagged VHBACK primers (6 primers HuVHlBAAPA to HuVH6BAAPA). Similarly, the light chain repertoires were amplified with HUCLCYS or HUCKCYS forward primers and HUV1BACK to HuV6BACK or HuVk1BACK to HuVk6BACK back primers described in Marks et a1. , 1991, supra and PCT/GB91/01134 (WO 92/01047). In each case described in this section the lambda and kappa chain variable repertoires were amplified separately. The amplified repertoires were reamplified with ApaLI and NotI tagged versions of these oligonucleotides (13 back primers HuV1BAAPA to Hu6BAAPA or HuVk1BAAPA to HuVkBAAPA and two forward primers HuCLCYSNOT and HuCKCYSNOT, respectively). All three repertoires were cloned into vector fd-tet-DOG1 as ApaLI-NotI fragments, and electroporated into E.coli MC1061 cells, to obtain libraries of 1.0 x 10 7 clones for VICA, 1.4 x 10 6 clones for VkCk, and 5 x 10 6 clones for IgM-derived VHCH1. The presence of insert was checked and the frequency of inserts in the library found to be higher than 95% in all three cases. Selecting a human VL using the mouse VH domain as docking chains : - In a first chain shuffling experiment, the mouse VH (linked to the human CH1 domain), expressed from pUC19-pe1B-myc, was paired as Fab fragment with a library of 107 different human VC domains. Phage displaying the antibody fragments were subjected to rounds of panning on TNF-coated tubes. By following the titre of the eluted phage, the extent of selection was monitored. After 4 rounds (with a 100-fold increase in the titre of eluted phage), 24 out of 28 individual clones were found to be binding to TNF in an ELISA with phage expressing Fab fragments (all with the mouse VH-human CHI). Phage only displaying the selected human VC domains gave a background similar to phage displaying only the chimaeric mouse Vk-human Ck. Sixteen clones taken after the first round of selection were found to be negative.
- Only three different BstN1 fingerprints were found amongst the 24 binders, with one pattern dominating (21/24). Light chains VA2, VC4 and VDl were found with frequencies of 21/24, 2/24 and 1/24 respectively. Sequencing revealed that all three light chains are derived from the same germline gene, a human V1-1-1. Clone VC4 has 1, clone VDl has 2 and clone
VA2 7 amino-acid residue differences from the germline. However, clone VA2 uses a framework-1 region which more closely resembled the germline sequence of a related V1, humv1117, and therefore may be the result of a cross-over. The germline character of the clones was also noted in the CDR3 sequence, with minimal variation in sequence and no length variation between the three clones. Apparently, only a very limited number of genes with very similar sequences fix the stringent requirements (being compatible with the mouse VH and forming an antigen-binding pair). Selecting a human VH using the selected human VL domains as docking chains : - Three selected Vλ genes were recloned in pUC19-pelB-myc for soluble expression VλCλ chains.E. coli cells harbouring the three light chain plasmids were mixed, infected with a phage library of human VHCH1 genes, expressed from the fd-tet-DOC1 library described earlier and the library subjected to rounds of panning on TNF-coated Immuno tubes. Clones were picked after 5 rounds, when the titre of eluted phage increased 100-fold. Fifteen out of 20 clones analysed by BstNI fingerprint of the DNA insert used one of two patterns (with approximately the same frequency). The 15 clones when combining their heavy chain VHCH1 fragments with the VλA2 light chain gave stronger phase ELISA signals than when combined with the VλC4 or VλD1 light chain. Background signals obtained with phage displaying the heavy chain VHCH1 fragment only were similar to the signal of the murine VH-human CH1.
- Sequencing revealed that the two patterns could be assigned to three unique human VH sequences (clones VHP1/2/3, with clone VHP1 having a BstNI fingerprint which is nearly identical to that of clone VHP2). Like the selected light chain genes, the selected heavy chain genes are derived from the same germline VH gene (germline DP-51 from the VH3 family, Tomlinsonet a1 ., J. Mol. Biol. 227, pp776-798 1992), with minimal residue differences. The selected human V-genes were aligned to their closest germline homologue; identical residues in the selected genes are represented by hyphens.
Framework 4 of the V H genes was truncated at 4th residue. Clone VHP1 was most likely a cross-over between DP-51 and a related germline, DP-47. All three selected VH-genes had relatively short CDR3 loops (8, 9 and 10 residues), but shared little homology in this sequence. Specificity of binding of the selected V-gene pairs : - A specificity ELISA with MAb32 and soluable ScFv fragments on a number of antigens showed that MAb32, its ScFv-derivative and three of the humanised TNF-binders (as ScFv-fragments) bind specifically to TNF. No significant binding was obtained to ELISA plates coated with keyhole limpet haemocyanin, ovalbumin, cytochrome c. bovine serum albumin, human thyroglobulin, or 2-phenyloxazol-5-one-BSA or to plastic only. Fully humanised clones were obtained which bound to both peptide 301 (SEQ ID NO:1) and TNF.
- In addition, to show that the human scFv fragments compete with the original antibody for binding to TNF, the binding of the scFv constructs in a competition ELISA with the Fab fragment derived by proteolytic cleavage of MAb32 was analysed. Single chain Fv fragments were incubated on a TNF-coated surface with increasing amounts of the Fab fragment and the amount of bound scFv detected in ELISA. Each of the scFv fragments competed with the FabMAb32 for binding to TNF, including both the original scFv-MAb32 and the humanised scFv fragments.
- Thus the fine specificity of MAb32 for peptide 301 of TNF was retained through the humanisation process.Affinity of binding of the selected V gene pairs :
- MAb32 and purified, monomeric forms of the recombinant mouse scFv-MAb32 and the human scFv antibodies VHP1-VA2. VHP2-VA2 and VHP3-VA2, were subjected to competition ELISA for the determination of the relative affinity for TNF. Antibodies were incubated on a TNF-coated surface in the presence of increasing amounts of soluble TNF. All the clones showed a roughly similar decrease in the ELISA signal over the same range of increasing TNF concentrations (with an IC50 in the 10nM to l00nM range).
- MAb32 and VHP3VA2 fragments were also analysed for binding properties using the Pharmacia BIAcore. TNF was indirectly immobilised on the surface, and the binding of antibody monitored. On the TNF surface, the Fab fragment from MAb32 by proteolytic cleavage and the scFv MAb32 showed very similar fast off rates (approximately 10-2 s -1 ). The human VHP3-VA2 antibody has an off rate in the same range as the original scFv-MAb32. On rates for antibody protein interactions were in the range seen for the interaction between other proteins and their receptors, and cover a 100 fold range between 10 4 and 10 6 M -1 S -1 (Mason D.W. and Williams, A.F., 1986, Kinetics of Antibody Reactions and the Analysis of Cell Surface Antigens, Blackwell, Oxford; Pecht, I., 1992 in Sela, M. (ed), Dynamic Aspects of Antibody Function, Academic Press Inc., New York, Vol. 6 pp 1-68). Assuming the on rates of the antibody TNF interactions are typical of antibody protein interactions, the off rate derived by the BIACore analysis is consistent with the affinity indicated by the competition ELISA (Kd _ 10 -7 to 10 -8 M).
- Thus, these determinations are consistent with scFvMAb32 and the humanised scFv clone VHP3-VA2 having a similar affinity and thus with the retention of affinity, as well as specificity, through epitope imprinted selection.Conclusion
- We have shown that a mouse antibody can be rebuilt into a human antibody with the same specificity by the process of epitope imprinted selection (EIS).
- A library of human light chains were shuffled with a mouse VH domain, binding combinations selected and then used in a second shuffle as "docking domains" for a library of human VH genes. Completely human antibodies were isolated from such "genuine" human library. The antibodies were shown to bind retain binding specificity. Alternatively, the mouse VL was used as docking chain for selecting human VH partners. Such VH domains can be used to find human VL genes, or alternatively, can be combined with human VL domains selected with the mouse VH domain. Indeed, binding activity was obtained by combining two independently selected V-genes, pointing towards potential additivity of the EIS procedure.
- The EIS approach may serve to humanise antibodies more rapidly than by CDR-grafting (Riechmannet a1 ., 1988, supra), as this method requires very often a detailed knowledge of the 3-D structure of the antibody. However, the EIS method can be extended to for example antibody repertoires obtained by phage selection from immunised rodents. Following immunisation with antigen, a repertoire of V-genes with high affinity and specificity may be selected and then used in an epitope imprinted selection (see example 4) to generate a range of human antibodies of high affinity and enriched for the desired specificity.ENHANCEMENT OF TNF-INDUCED TUMOUR REGRESSION BY ANTIBODY VHP3-VA2, THE HUMAN EQUIVALENT OF
MAB 32 - BALB/c mice were inoculated with WEHI-164 tumour cells as described above. After development of subcutaneous tumours the mice were treated daily with TNF (1 or l01g) alone or in combination with purified P3A2 (501) by intraperitoneal injection. Tumour size was measured throughout the course of the treatment period.
- Results are shown in Figure 35.
- VHP3-VA2 enhanced the anti-tumour activity of TNF at both the 1 and l01g levels.CONCLUSIONS
- Mapping of the regions recognised by each of the MAbs has indicated that MAbs in group I (
MAbs MAbs MAbs MAbs MAb 32 which potentiates the in vivo tumour regression and anti-viral activity of TNF is the only antibody which binds all the loop regions associated with residues 1-26, 117-128, and 141-153 and hence binding of these regions is curcial for enhanced TNF bioactivity with concommittant reduction of toxicity for normal cells. - As is apparent from Table 2
MAb MAbs MAb 21. A ligand which binds to TNF predoinately in the regions of residues 22-40 (SEQ ID NO:9) and 69-97 (SEQ ID NO:14) will have the same effect on bioactivity of TNF as MAb12. A ligand which binds to TNF predominately in the regions of residues 1-30, 117-128, and 141-153 would be expected to have the same effect on the bioactivity of TNF asMAb 32 and a ligand which binds to TNF predominately in the regions of residues 22-40 (SEQ ID NO:9), 49-97 (SEQ ID NO:10), 110-127 (SEQ ID NO:7) and 136-153 (SEQ ID NO:11) would be expected to have the same effect on the bioactivity of TNF asMAb 42. A ligand which binds to TNF predominately in the regions of residues 22-31 and 146-157 would be expected to have the same effect on the bioactivity of TNF asMAb 37 and a ligand which binds to TNF predominately in the regions of residues 22-40 (SEQ ID NO:9), 69-97 (SEQ ID NO:14), 105-128 (SEQ ID NO:15) and 135-155 (SEQ ID NO:16) would be expected to have the same effect on the bioactivity of TNF asMAb 53. - The present inventors have quite clearly shown that the bioactivity of TNF can be altered by the binding of a ligand to the TNF, and that the effect on the bioactivity is a function of the specificity of the ligand. For example, the binding of
MAb 32 to TNF in the regions of residues 1-26, 117-128 and 141-153 results in the induction of endothelial procoagulant activity of the TNF and binding of TNF to receptors on endothelial cells being inhibited; the induction of tumour fibrin deposition and tumour regression activities of the TNF being enhanced; the cytotoxicity being unaffected and the tumour receptor binding activities of the TNF being unaffected or enhanced. It is believed that this effect on the bioactivity of the TNF may be due to the prevention of the binding of the epitope of the TNF recognised byMAb 32 to naturally occurring biologically active ligands. Accordingly, it is believed that a similar effect to that produced byMAb 32 could also be produced by a ligand which binds to a region of TNF in a manner such that the epitope recognised byMAb 32 is prevented from binding to naturally occurring biologically active ligands. This prevention of binding may be due to steric hindrance or other mechanisms. - Accordingly, it is intended that the prevention of the binding of epitopes recognised by the various monoclonal antibodies described herein to naturally occurring biologically active ligands is within the scope of the present invention.
Claims (448)
1. Claim 1 (cancelled)
2. Claim 2 (cancelled)
3. Claim 3 (cancelled)
4. Claim 4 (cancelled)
5. Claim 5 (cancelled)
6. Claim 6 (cancelled)
7. Claim 7 (cancelled)
8. Claim 8 (cancelled)
9. Claim 9 (cancelled)
10. Claim 10 (cancelled)
11. Claim 11 (cancelled)
12. Claim 12 (cancelled)
13. Claim 13 (cancelled)
14. Claim 14 (cancelled)
15. Claim 15 (cancelled)
16. Claim 16 (cancelled)
17. Claim 17 (cancelled)
18. Claim 18 (cancelled)
19. Claim 19 (cancelled)
20. Claim 20 (cancelled)
21. Claim 21 (cancelled)
22. Claim 22 (cancelled)
23. Claim 23 (cancelled)
24. Claim 24 (cancelled)
25. Claim 25 (cancelled)
26. Claim 26 (cancelled)
27. Claim 27 (cancelled)
28. Claim 28 (cancelled)
29. Claim 29 (cancelled)
30. Claim 30 (cancelled)
31. Claim 31 (cancelled)
32. Claim 32 (cancelled)
33. Claim 33 (cancelled)
34. Claim 34 (cancelled)
35. Claim 35 (cancelled)
36. Claim 36 (cancelled)
37. Claim 37 (cancelled)
38. Claim 38 (cancelled)
39. Claim 39 (cancelled)
40. Claim 40 (cancelled)
41. Claim 41 (cancelled)
42. Claim 42 (cancelled)
43. Claim 43 (cancelled)
44. Claim 44 (cancelled)
45. Claim 45 (cancelled)
46. Claim 46 (cancelled)
47. Claim 47 (cancelled)
48. Claim 48 (cancelled)
49. Claim 49 (cancelled)
50. Claim 50 (cancelled)
51. Claim 51 (cancelled)
52. Claim 52 (cancelled)
53. Claim 53 (cancelled)
54. Claim 54 (cancelled)
55. Claim 55 (cancelled)
56. Claim 56 (cancelled)
57. Claim 57 (cancelled)
58. Claim 58 (cancelled)
59. Claim 59 .An isolated antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein the antibody or fragment thereof competitively inhibits MAb 53 (accession No. 90012433) for specific binding to mature human TNF-α and,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and the induction of endothelial procoagulant activity, cytotoxicity, tumor regression and tumor receptor binding are inhibited.
60. Claim 60 .An antibody or fragment thereof according to claim 59 ,
wherein the antibody or fragment thereof competitively inhibits the binding of MAb 53 (accession No. 90012433) to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
61. Claim 61 .An antibody or fragment thereof according to claim 59 wherein the antibody is a monoclonal antibody.
62. Claim 62 .An antibody or fragment thereof according to any one of claims 59-61, wherein the antibody is a humanized antibody.
63. Claim 63 .An antibody or fragment thereof according to any one of claims 59-61, wherein the antibody is a chimeric antibody.
64. Claim 64 .A composition comprising an isolated antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein the antibody or fragment thereof competitively inhibits MAb 53 (accession No. 90012433) for specific binding to mature human TNF-α and,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and the induction of endothelial procoagulant activity, cytotoxicity, tumor regression and tumor receptor binding are inhibited.
65. Claim 65 .A composition according to claim 64 , wherein the antibody or fragment thereof competitively inhibits the binding of MAb 53 (accession No. 90012433) to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
66. Claim 66 .A composition according to claim 64 wherein the antibody is a monoclonal antibody.
67. Claim 67 .A composition according to any one of claims 64-66, wherein the antibody is a humanized antibody.
68. Claim 68 .A composition according to any one of claims 64-66, wherein the antibody is a chimeric antibody.
69. Claim 69 .An isolated single chain antibody that specifically binds to mature human TNF-α,
wherein the antibody competitively inhibits MAb 53 (accession No. 90012433) for specific binding to mature human TNF-α and,
wherein when the antibody binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and the induction of endothelial procoagulant activity, cytotoxicity, tumor regression and tumor receptor binding are inhibited.
70. Claim 70 .An antibody according to claim 69 , wherein the antibody competitively inhibits the binding of MAb 53 (accession No. 90012433) to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
71. Claim 71 .An antibody according to claim 69 or 70 , wherein the antibody is a humanized antibody.
72. Claim 72 .An antibody according to claim 69 or 70 , wherein the antibody is a chimeric antibody.
73. Claim 73 .A composition comprising an isolated single chain antibody that specifically binds to mature human TNF-α,
wherein the antibody competitively inhibits MAb 53 (accession No. 90012433) for specific binding to mature human TNF-α and,
wherein when the antibody binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and the induction of endothelial procoagulant activity, cytotoxicity, tumor regression and tumor receptor binding are inhibited.
74. Claim 74 .A composition according to claim 73 , wherein the antibody competitively inhibits the binding of MAb 53 (accession No. 90012433) to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
75. Claim 75 .A composition according to claim 73 or 74 , wherein the antibody is a humanized antibody.
76. Claim 76 .A composition according to claim 73 or 74 , wherein the antibody is a chimeric antibody.
77. Claim 77 (cancelled)
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180. Claim 180 (cancelled)
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182. Claim 182 (cancelled)
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185. Claim 185 (cancelled)
186. Claim 186 (cancelled)
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190. Claim 190 (cancelled)
191. Claim 191 (cancelled)
192. Claim 192 (cancelled)
193. Claim 193 (cancelled)
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195. Claim 195 (cancelled)
196. Claim 196 (cancelled)
197. Claim 197 (cancelled)
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199. Claim 199 (cancelled)
200. Claim 200 (cancelled)
201. Claim 201 (cancelled)
202. Claim 202 (cancelled)
203. Claim 203 (cancelled)
204. Claim 204 (cancelled)
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206. Claim 206 (cancelled)
207. Claim 207 (cancelled)
208. Claim 208 (cancelled)
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211. Claim 211 (cancelled)
212. Claim 212 (cancelled)
213. Claim 213 (cancelled)
214. Claim 214 (cancelled)
215. Claim 215 (cancelled)
216. Claim 216 (cancelled)
217. Claim 217 (cancelled)
218. Claim 218 (cancelled)
219. Claim 219 (cancelled)
220. Claim 220 (cancelled)
221. Claim 221 .An isolated antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the isolated antibody or fragment thereof competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and,
wherein the second antibody or fragment thereof binds to peptides having amino acid sequences Ala
22
-Glu
23
-Gly
24
-Gln
25
-Leu
26
-Gln
27
-Trp
28
-Leu
29
-Asn
30
-Arg
31
-Arg
32
-Ala
33
-Asn
34
-Ala
35
-Leu
36
-Leu
37
-Ala
38
-Asn
39
-Gly
40
, Cys
69
-Pro
70
-Ser
71
-Thr
72
-His
73
-Val
74
-Leu
75
-Leu
76
-Thr
77
-His
78
-Thr
79
-Ile
80
-Ser
81
-Arg
82
-Ile
83
-Ala-
84
-Val
85
-Ser
86
-Tyr
87
-Gln
88
-Thr
89
-Lys
90
-Val
91
-Asn
92
-Leu
93
-Leu
94
-Ser
95
-Ala
96
-Ile
97
, Thr
105
-Pro
106
-Glu
107
-Gly
108
-Ala
109
-Glu
110
-Ala
111
-Lys
112
-Pro
113
-Trp
114
-Tyr
115
-Glu
116
-Pro
117
-Ile
118
-Tyr
119
-Leu
120
-Gly
121
-Gly
122
-Val
123
-Phe
124
-Gln
125
-Leu
126
-Glu
127
-Lys
128
, and Glu
135
-Ile
136
-Asn
137
-Arg
138
-Pro
139
-Asp
140
-Tyr
141
-Leu
142
-Asp
143
-Phe
144
-Ala
145
-Glu
146
-Ser
147
-Gly
148
-Gln
149
-Val
150
-Tyr
151
-Phe
152
-Gly
153
-Ile
154
-Ile
155
of the mature human TNF-α amino acid sequence.
222. Claim 222 .An antibody or fragment thereof according to claim 221 , wherein the antibody is a monoclonal antibody.
223. Claim 223 .An antibody or fragment thereof according to claim 221 , wherein the antibody or fragment thereof has no effect on the induction of tumor fibrin deposition activity.
224. Claim 224 .An antibody or fragment thereof according to claim 221 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
225. Claim 225 .An antibody or fragment thereof according to claim 224 , wherein the antibody or fragment thereof inhibits cytotoxicity.
226. Claim 226 .An antibody or fragment thereof according to claim 221 , wherein the antibody or fragment thereof inhibits cytotoxicity.
227. Claim 227 .An antibody or fragment thereof according to claim 226 , wherein the antibody or fragment thereof inhibits tumor regression.
228. Claim 228 .An antibody or fragment thereof according to claim 225 , wherein the antibody or fragment thereof inhibits tumor regression.
229. Claim 229 .An antibody or fragment thereof according to claim 224 , wherein the antibody or fragment thereof inhibits tumor regression.
230. Claim 230 .An antibody or fragment thereof according to claim 221 , wherein the antibody or fragment thereof inhibits tumor regression.
231. Claim 231 .The antibody or fragment thereof according to claim 221 , wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
232. Claim 232 .An antibody or fragment thereof according to claim 221 , where comparative binding specificity between the antibody or fragment thereof and the second antibody or fragment thereof is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
233. Claim 233 .An antibody or fragment thereof according to claim 232 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
234. Claim 234 .An antibody or fragment thereof according to claim 233 , wherein the antibody or fragment thereof inhibits cytotoxicity.
235. Claim 235 .An antibody or fragment thereof according to claim 232 , wherein the antibody or fragment thereof inhibits cytotoxicity.
236. Claim 236 .An antibody or fragment thereof according to claim 234 , wherein the antibody or fragment thereof inhibits tumor regression.
237. Claim 237 .An antibody or fragment thereof according to claim 232 , wherein the antibody or fragment thereof inhibits tumor regression.
238. Claim 238 .An antibody or fragment thereof according to claim 232 , wherein the antibody or fragment thereof competitively inhibits the binding of the second antibody or fragment thereof to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α; and,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
239. Claim 239 .An antibody or fragment thereof according to any one of claims 221-238, wherein the antibody is a humanized antibody.
240. Claim 240 .An antibody or fragment thereof according to any one of claims 221-238, wherein the antibody is a chimeric antibody.
241. Claim 241 .A composition comprising an isolated antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the isolated antibody or fragment thereof competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and,
wherein the second antibody or fragment thereof binds to peptides having amino acid sequences Ala
22
-Glu
23
-Gly
24
-Gln
25
-Leu
26
-Gln
27
-Trp
28
-Leu
29
-Asn
30
-Arg
31
-Arg
32
-Ala
33
-Asn
34
-Ala
35
-Leu
36
-Leu
37
-Ala
38
-Asn
39
-Gly
40
, Cys
69
-Pro
70
-Ser
71
-Thr
72
-His
73
-Val
74
-Leu
75
-Leu
76
-Thr
77
-His
78
-Thr
79
-Ile
80
-Ser
81
-Arg
82
-Ile
83
-Ala-
84
-Val
85
-Ser
86
-Tyr
87
-Gln
88
-Thr
89
-Lys
90
-Val
91
-Asn
92
-Leu
93
-Leu
94
-Ser
95
-Ala
96
-Ile
97
, Thr
105
-Pro
106
-Glu
107
-Gly
108
-Ala
109
-Glu
110
-Ala
111
-Lys
112
-Pro
113
-Trp
114
-Tyr
115
-Glu
116
-Pro
117
-Ile
118
-Tyr
119
-Leu
120
-Gly
121
-Gly
122
-Val
123
-Phe
124
-Gln
125
-Leu
126
-Glu
127
-Lys
128
, and Glu
135
-Ile
136
-Asn
137
-Arg
138
-Pro
139
-Asp
140
-Tyr
141
-Leu
142
-Asp
143
-Phe
144
-Ala
145
-Glu
146
-Ser
147
-Gly
148
-Gln
149
-Val
150
-Tyr
151
-Phe
152
-Gly
153
-Ile
154
-Ile
155
of the mature human TNF-α amino acid sequence.
242. Claim 242 .A composition according to claim 241 , wherein the antibody is a monoclonal antibody.
243. Claim 243 .A composition according to claim 241 , wherein the antibody or fragment thereof has no effect on the induction of tumor fibrin deposition activity.
244. Claim 244 .A composition according to claim 241 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
245. Claim 245 .A composition according to claim 244 , wherein the antibody or fragment thereof inhibits cytotoxicity.
246. Claim 246 .A composition according to claim 241 , wherein the antibody or fragment thereof inhibits cytotoxicity.
247. Claim 247 .A composition according to claim 246 , wherein the antibody or fragment thereof inhibits tumor regression.
248. Claim 248 .A composition according to claim 245 , wherein the antibody or fragment thereof inhibits tumor regression.
249. Claim 249 .A composition according to claim 244 , wherein the antibody or fragment thereof inhibits tumor regression.
250. Claim 250 .A composition according to claim 241 , wherein the antibody or fragment thereof inhibits tumor regression.
251. Claim 251 .A composition according to claim 241 , wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
252. Claim 252 .A composition according to claim 241 , where comparative binding specificity between the antibody or fragment thereof and the second antibody or fragment thereof is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
253. Claim 253 .A composition according to claim 252 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
254. Claim 254 .A composition according to claim 253 , wherein the antibody or fragment thereof inhibits cytotoxicity.
255. Claim 255 .A composition according to claim 252 , wherein the antibody or fragment thereof inhibits cytotoxicity.
256. Claim 256 .A composition according to claim 254 , wherein the antibody or fragment thereof inhibits tumor regression.
257. Claim 257 .A composition according to claim 252 , wherein the antibody or fragment thereof inhibits tumor regression.
258. Claim 258 .A composition according to claim 241 , wherein the antibody or fragment thereof competitively inhibits the binding of the second antibody or fragment thereof to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α; and,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
259. Claim 259 .A composition according to any one of claims 241-258, wherein the antibody is a humanized antibody.
260. Claim 260 .A composition according to any one of claims 241-258, wherein the antibody is a chimeric antibody.
261. Claim 261 .An isolated single chain antibody that specifically binds to mature human TNF-α,
wherein when the antibody binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the isolated antibody competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and
wherein the second antibody or fragment thereof binds to peptides having amino acid sequences Ala
22
-Glu
23
-Gly
24
-Gln
25
-Leu
26
-Gln
27
-Trp
28
-Leu
29
-Asn
30
-Arg
31
-Arg
32
-Ala
33
-Asn
34
-Ala
35
-Leu
36
-Leu
37
-Ala
38
-Asn
39
-Gly
40
, Cys
69
-Pro
70
-Ser
71
-Thr
72
-His
73
-Val
74
-Leu
75
-Leu
76
-Thr
77
-His
78
-Thr
79
-Ile
80
-Ser
81
-Arg
82
-Ile
83
-Ala-
84
-Val
85
-Ser
86
-Tyr
87
-Gln
88
-Thr
89
-Lys
90
-Val
91
-Asn
92
-Leu
93
-Leu
94
-Ser
95
-Ala
96
-Ile
97
, Thr
105
-Pro
106
-Glu
107
-Gly
108
-Ala
109
-Glu
110
-Ala
111
-Lys
112
-Pro
113
-Trp
114
-Tyr
115
-Glu
116
-Pro
117
-Ile
118
-Tyr
119
-Leu
120
-Gly
121
-Gly
122
-Val
123
-Phe
124
-Gln
125
-Leu
126
-Glu
127
-Lys
128
, and Glu
135
-Ile
136
-Asn
137
-Arg
138
-Pro
139
-Asp
140
-Tyr
141
-Leu
142
-Asp
143
-Phe
144
-Ala
145
-Glu
146
-Ser
147
-Gly
148
-Gln
149
-Val
150
-Tyr
151
-Phe
152
-Gly
153
-Ile
154
-Ile
155
of the mature human TNF-α amino acid sequence.
262. Claim 262 .An antibody according to claim 261 , wherein the antibody has no effect on the induction of tumor fibrin deposition activity.
263. Claim 263 .An antibody according to claim 261 , wherein the antibody inhibits tumor receptor binding.
264. Claim 264 .An antibody according to claim 263 , wherein the antibody inhibits cytotoxicity.
265. Claim 265 .An antibody according to claim 261 , wherein the antibody inhibits cytotoxicity.
266. Claim 266 .An antibody according to claim 265 , wherein the antibody inhibits tumor regression.
267. Claim 267 .An antibody according to claim 264 , wherein the antibody inhibits tumor regression.
268. Claim 268 .An antibody according to claim 263 , wherein the antibody inhibits tumor regression.
269. Claim 269 .An antibody according to claim 261 , wherein the antibody inhibits tumor regression.
270. Claim 270 .An antibody according to claim 261 , wherein when the antibody binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
271. Claim 271 .An antibody according to claim 261 , where comparative binding specificity between the antibody and the second antibody is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
272. Claim 272 .An antibody according to claim 271 , wherein the antibody inhibits tumor receptor binding.
273. Claim 273 .An antibody according to claim 272 , wherein the antibody inhibits cytotoxicity.
274. Claim 274 .An antibody according to claim 271 , wherein the antibody inhibits cytotoxicity.
275. Claim 275 .An antibody according to claim 273 , wherein the antibody inhibits tumor regression.
276. Claim 276 .An antibody according to claim 271 , wherein the antibody inhibits tumor regression.
277. Claim 277 .An antibody according to claim 261 , wherein the antibody competitively inhibits the binding of the second antibody to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α; and,
wherein when the antibody binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
278. Claim 278 .An antibody according to any one of claims 261-277, wherein the antibody is a humanized antibody.
279. Claim 279 .An antibody according to any one of claims 261-277, wherein the antibody is a chimeric antibody.
280. Claim 280 .A composition comprising an isolated single chain antibody that specifically binds to mature human TNF-α,
wherein when the antibody binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the isolated antibody competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α,
wherein the second antibody or fragment thereof binds to peptides having amino acid sequences Ala
22
-Glu
23
-Gly
24
-Gln
25
-Leu
26
-Gln
27
-Trp
28
-Leu
29
-Asn
30
-Arg
31
-Arg
32
-Ala
33
-Asn
34
-Ala
35
-Leu
36
-Leu
37
-Ala
38
-Asn
39
-Gly
40
, Cys
69
-Pro
70
-Ser
71
-Thr
72
-His
73
-Val
74
-Leu
75
-Leu
76
-Thr
77
-His
78
-Thr
79
-Ile
80
-Ser
81
-Arg
82
-Ile
83
-Ala-
84
-Val
85
-Ser
86
-Tyr
87
-Gln
88
-Thr
89
-Lys
90
-Val
91
-Asn
92
-Leu
93
-Leu
94
-Ser
95
-Ala
96
-Ile
97
, Thr
105
-Pro
106
-Glu
107
-Gly
108
-Ala
109
-Glu
110
-Ala
111
-Lys
112
-Pro
113
-Trp
114
-Tyr
115
-Glu
116
-Pro
117
-Ile
118
-Tyr
119
-Leu
120
-Gly
121
-Gly
122
-Val
123
-Phe
124
-Gln
125
-Leu
126
-Glu
127
-Lys
128
, and Glu
135
-Ile
136
-Asn
137
-Arg
138
-Pro
139
-Asp
140
-Tyr
141
-Leu
142
-Asp
143
-Phe
144
-Ala
145
-Glu
146
-Ser
147
-Gly
148
-Gln
149
-Val
150
-Tyr
151
-Phe
152
-Gly
153
-Ile
154
-Ile
155
of the mature human TNF-α amino acid sequence.
281. Claim 281 .A composition according to claim 280 , wherein the antibody has no effect on the induction of tumor fibrin deposition activity.
282. Claim 282 .A composition comprising an antibody according to claim 280 , wherein the antibody inhibits tumor receptor binding.
283. Claim 283 .A composition comprising an antibody according to claim 282 , wherein the antibody inhibits cytotoxicity.
284. Claim 284 .A composition comprising an antibody according to claim 280 , wherein the antibody inhibits cytotoxicity.
285. Claim 285 .A composition comprising an antibody according to claim 284 , wherein the antibody inhibits tumor regression.
286. Claim 286 .A composition comprising an antibody according to claim 283 , wherein the antibody inhibits tumor regression.
287. Claim 287 .A composition comprising an antibody according to claim 282 , wherein the antibody inhibits tumor regression.
288. Claim 288 .A composition comprising an antibody according to claim 280 , wherein the antibody inhibits tumor regression.
289. Claim 289 .A composition according to claim 280 , wherein when the antibody binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
290. Claim 290 .A composition according to claim 280 , where comparative binding specificity between the antibody and the second antibody or fragment thereof is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
291. Claim 291 .A composition comprising an antibody according to claim 290 , wherein the antibody inhibits tumor receptor binding.
292. Claim 292 .A composition comprising an antibody according to claim 291 , wherein the antibody inhibits cytotoxicity.
293. Claim 293 .A composition comprising an antibody according to claim 280 , wherein the antibody inhibits cytotoxicity.
294. Claim 294 .A composition comprising an antibody according to claim 292 , wherein the antibody inhibits tumor regression.
295. Claim 295 .A composition comprising an antibody according to claim 280 , wherein the antibody inhibits tumor regression.
296. Claim 296 .A composition according to claim 280 , wherein the antibody competitively inhibits the binding of the second antibody or fragment thereof to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α; and,
wherein when the antibody binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
297. Claim 297 .A composition according to any one of claims 280-296, wherein the antibody is a humanized antibody.
298. Claim 298 .A composition according to any one of claims 280-296, wherein the antibody is a chimeric antibody.
299. Claim 299 .An isolated single domain antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein the antibody or fragment thereof competitively inhibits MAb 53 (accession No. 90012433) for specific binding to mature human TNF-α and,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and the induction of endothelial procoagulant activity, cytotoxicity, tumor regression and tumor receptor binding are inhibited.
300. Claim 300 .An antibody or fragment thereof according to claim 299 ,
wherein the antibody or fragment thereof competitively inhibits the binding of MAb 53 (accession No. 90012433) to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
301. Claim 301 .An antibody or fragment thereof according to claim 299 or 300 , wherein the antibody is a humanized antibody.
302. Claim 302 .An antibody or fragment thereof according to claim 299 or 300 , wherein the antibody is a chimeric antibody.
303. Claim 303 .A composition comprising an isolated single domain antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein the antibody or fragment thereof competitively inhibits MAb 53 (accession No. 90012433) for specific binding to mature human TNF-α and,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and the induction of endothelial procoagulant activity, cytotoxicity, tumor regression and tumor receptor binding are inhibited.
304. Claim 304 .A composition according to claim 303 , wherein the antibody or fragment thereof competitively inhibits the binding of MAb 53 (accession No. 90012433) to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
305. Claim 305 .A composition according to claim 303 or 304 , wherein the antibody is a humanized antibody.
306. Claim 306 .A composition according to claim 303 or 304 , wherein the antibody is a chimeric antibody.
307. Claim 307 .An isolated single domain antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the isolated antibody or fragment thereof competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and,
wherein the second antibody or fragment thereof binds to peptides having amino acid sequences Ala
22
-Glu
23
-Gly
24
-Gln
25
-Leu
26
-Gln
27
-Trp
28
-Leu
29
-Asn
30
-Arg
31
-Arg
32
-Ala
33
-Asn
34
-Ala
35
-Leu
36
-Leu
37
-Ala
38
-Asn
39
-Gly
40
, Cys
69
-Pro
70
-Ser
71
-Thr
72
-His
73
-Val
74
-Leu
75
-Leu
76
-Thr
77
-His
78
-Thr
79
-Ile
80
-Ser
81
-Arg
82
-Ile
83
-Ala-
84
-Val
85
-Ser
86
-Tyr
87
-Gln
88
-Thr
89
-Lys
90
-Val
91
-Asn
92
-Leu
93
-Leu
94
-Ser
95
-Ala
96
-Ile
97
, Thr
105
-Pro
106
-Glu
107
-Gly
108
-Ala
109
-Glu
110
-Ala
111
-Lys
112
-Pro
113
-Trp
114
-Tyr
115
-Glu
116
-Pro
117
-Ile
118
-Tyr
119
-Leu
120
-Gly
121
-Gly
122
-Val
123
-Phe
124
-Gln
125
-Leu
126
-Glu
127
-Lys
128
, and Glu
135
-Ile
136
-Asn
137
-Arg
138
-Pro
139
-Asp
140
-Tyr
141
-Leu
142
-Asp
143
-Phe
144
-Ala
145
-Glu
146
-Ser
147
-Gly
148
-Gln
149
-Val
150
-Tyr
151
-Phe
152
-Gly
153
-Ile
154
-Ile
155
of the mature human TNF-α amino acid sequence.
308. Claim 308 .An antibody or fragment thereof according to claim 307 , wherein the antibody or fragment thereof has no effect on the induction of tumor fibrin deposition activity.
309. Claim 309 .An antibody or fragment thereof according to claim 307 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
310. Claim 310 .An antibody or fragment thereof according to claim 309 , wherein the antibody or fragment thereof inhibits cytotoxicity.
311. Claim 311 .An antibody or fragment thereof according to claim 307 , wherein the antibody or fragment thereof inhibits cytotoxicity.
312. Claim 312 .An antibody or fragment thereof according to claim 311 , wherein the antibody or fragment thereof inhibits tumor regression.
313. Claim 313 .An antibody or fragment thereof according to claim 310 , wherein the antibody or fragment thereof inhibits tumor regression.
314. Claim 314 .An antibody or fragment thereof according to claim 309 , wherein the antibody or fragment thereof inhibits tumor regression.
315. Claim 315 .An antibody or fragment thereof according to claim 307 , wherein the antibody or fragment thereof inhibits tumor regression.
316. Claim 316 .The antibody or fragment thereof according to claim 307 , wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
317. Claim 317 .An antibody or fragment thereof according to claim 307 , where comparative binding specificity between the antibody or fragment thereof and the second antibody or fragment thereof is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
318. Claim 318 .An antibody or fragment thereof according to claim 317 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
319. Claim 319 .An antibody or fragment thereof according to claim 318 , wherein the antibody or fragment thereof inhibits cytotoxicity.
320. Claim 320 .An antibody or fragment thereof according to claim 317 , wherein the antibody or fragment thereof inhibits cytotoxicity.
321. Claim 321 .An antibody or fragment thereof according to claim 319 , wherein the antibody or fragment thereof inhibits tumor regression.
322. Claim 322 .An antibody or fragment thereof according to claim 317 , wherein the antibody or fragment thereof inhibits tumor regression.
323. Claim 323 .An antibody or fragment thereof according to claim 307 , wherein the antibody or fragment thereof competitively inhibits the binding of the second antibody or fragment thereof to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α; and,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
324. Claim 324 .An antibody or fragment thereof according to any one of claims 307-323, wherein the antibody is a humanized antibody.
325. Claim 325 .An antibody or fragment thereof according to any one of claims 307-323, wherein the antibody is a chimeric antibody.
326. Claim 326 .A composition comprising an isolated single domain antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the antibody or fragment thereof competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and,
wherein the second antibody or fragment thereof binds to peptides having amino acid sequences Ala
22
-Glu
23
-Gly
24
-Gln
25
-Leu
26
-Gln
27
-Trp
28
-Leu
29
-Asn
30
-Arg
31
-Arg
32
-Ala
33
-Asn
34
-Ala
35
-Leu
36
-Leu
37
-Ala
38
-Asn
39
-Gly
40
, Cys
69
-Pro
70
-Ser
71
-Thr
72
-His
73
-Val
74
-Leu
75
-Leu
76
-Thr
77
-His
78
-Thr
79
-Ile
80
-Ser
81
-Arg
82
-Ile
83
-Ala-
84
-Val
85
-Ser
86
-Tyr
87
-Gln
88
-Thr
89
-Lys
90
-Val
91
-Asn
92
-Leu
93
-Leu
94
-Ser
95
-Ala
96
-Ile
97
, Thr
105
-Pro
106
-Glu
107
-Gly
108
-Ala
109
-Glu
110
-Ala
111
-Lys
112
-Pro
113
-Trp
114
-Tyr
115
-Glu
116
-Pro
117
-Ile
118
-Tyr
119
-Leu
120
-Gly
121
-Gly
122
-Val
123
-Phe
124
-Gln
125
-Leu
126
-Glu
127
-Lys
128
, and Glu
135
-Ile
136
-Asn
137
-Arg
138
-Pro
139
-Asp
140
-Tyr
141
-Leu
142
-Asp
143
-Phe
144
-Ala
145
-Glu
146
-Ser
147
-Gly
148
-Gln
149
-Val
150
-Tyr
151
-Phe
152
-Gly
153
-Ile
154
-Ile
155
of the mature human TNF-α amino acid sequence.
327. Claim 327 .A composition according to claim 326 , wherein the antibody or fragment thereof has no effect on the induction of tumor fibrin deposition activity.
328. Claim 328 .A composition according to claim 326 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
329. Claim 329 .A composition according to claim 328 , wherein the antibody or fragment thereof inhibits cytotoxicity.
330. Claim 330 .A composition according to claim 326 , wherein the antibody or fragment thereof inhibits cytotoxicity.
331. Claim 331 .A composition according to claim 330 , wherein the antibody or fragment thereof inhibits tumor regression.
332. Claim 332 .A composition according to claim 329 , wherein the antibody or fragment thereof inhibits tumor regression.
333. Claim 333 .A composition according to claim 328 , wherein the antibody or fragment thereof inhibits tumor regression.
334. Claim 334 .A composition according to claim 326 , wherein the antibody or fragment thereof inhibits tumor regression.
335. Claim 335 .A composition according to claim 326 , wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
336. Claim 336 .A composition according to claim 326 , where comparative binding specificity between the antibody or fragment thereof and the second antibody or fragment thereof is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
337. Claim 337 .An antibody or fragment thereof according to claim 336 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
338. Claim 338 .An antibody or fragment thereof according to claim 337 , wherein the antibody or fragment thereof inhibits cytotoxicity.
339. Claim 339 .An antibody or fragment thereof according to claim 336 , wherein the antibody or fragment thereof inhibits cytotoxicity.
340. Claim 340 .An antibody or fragment thereof according to claim 338 , wherein the antibody or fragment thereof inhibits tumor regression.
341. Claim 341 .An antibody or fragment thereof according to claim 336 , wherein the antibody or fragment thereof inhibits tumor regression.
342. Claim 342 .A composition according to claim 326 , wherein the antibody or fragment thereof competitively inhibits the binding of the second antibody or fragment thereof to mature human TNF-α, where comparative binding specificity is determined by antibody-antibody competition assays in the presence of mature human TNF-α; and,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of tumor fibrin deposition is unaffected, and cytotoxicity, tumor regression and tumor receptor binding activities are inhibited.
343. Claim 343 .A composition according to any one of claims 326-342, wherein the antibody is a humanized antibody.
344. Claim 344 .A composition according to any one of claims 326-342, wherein the antibody is a chimeric antibody.
345. Claim 345 .An isolated antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the antibody or fragment thereof competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and,
wherein the second antibody is Mab 53 (accession No. 90012433).
346. Claim 346 .An antibody or fragment thereof according to claim 345 , wherein the antibody is a monoclonal antibody.
347. Claim 347 .An antibody or fragment thereof according to claim 345 , wherein the antibody or fragment thereof has no effect on the induction of tumor fibrin deposition activity.
348. Claim 348 .An antibody or fragment thereof according to claim 345 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
349. Claim 349 .An antibody or fragment thereof according to claim 348 , wherein the antibody or fragment thereof inhibits cytotoxicity.
350. Claim 350 .An antibody or fragment thereof according to claim 345 , wherein the antibody or fragment thereof inhibits cytotoxicity.
351. Claim 351 .An antibody or fragment thereof according to claim 350 , wherein the antibody or fragment thereof inhibits tumor regression.
352. Claim 352 .An antibody or fragment thereof according to claim 349 , wherein the antibody or fragment thereof inhibits tumor regression.
353. Claim 353 .An antibody or fragment thereof according to claim 348 , wherein the antibody or fragment thereof inhibits tumor regression.
354. Claim 354 .An antibody or fragment thereof according to claim 345 , wherein the antibody or fragment thereof inhibits tumor regression.
355. Claim 355 .An antibody or fragment thereof according to claim 345 , where comparative binding specificity between the antibody or fragment thereof and MAb 53 (accession No. 90012433) is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
356. Claim 356 .An antibody or fragment thereof according to claim 355 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
357. Claim 357 .An antibody or fragment thereof according to claim 356 , wherein the antibody or fragment thereof inhibits cytotoxicity.
358. Claim 358 .An antibody or fragment thereof according to claim 355 , wherein the antibody or fragment thereof inhibits cytotoxicity.
359. Claim 359 .An antibody or fragment thereof according to claim 357 , wherein the antibody or fragment thereof inhibits tumor regression.
360. Claim 360 .An antibody or fragment thereof according to claim 355 , wherein the antibody or fragment thereof inhibits tumor regression.
361. Claim 361 .An antibody or fragment thereof according to any one of claims 345-360, wherein the antibody is a humanized antibody.
362. Claim 362 .An antibody or fragment thereof according to any one of claims 345-360, wherein the antibody is a chimeric antibody.
363. Claim 363 .A composition comprising an isolated antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the antibody or fragment thereof competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α, and,
wherein the second antibody is Mab 53 (accession No. 90012433).
364. Claim 364 .A composition according to claim 363 , wherein the antibody is a monoclonal antibody.
365. Claim 365 .A composition according to claim 363 , wherein the antibody or fragment thereof has no effect on the induction of tumor fibrin deposition activity.
366. Claim 366 .A composition according to claim 363 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
367. Claim 367 .A composition according to claim 366 , wherein the antibody or fragment thereof inhibits cytotoxicity.
368. Claim 368 .A composition according to claim 363 , wherein the antibody or fragment thereof inhibits cytotoxicity.
369. Claim 369 .A composition according to claim 368 , wherein the antibody or fragment thereof inhibits tumor regression.
370. Claim 370 .A composition according to claim 367 , wherein the antibody or fragment thereof inhibits tumor regression.
371. Claim 371 .A composition according to claim 366 , wherein the antibody or fragment thereof inhibits tumor regression.
372. Claim 372 .A composition according to claim 363 , wherein the antibody or fragment thereof inhibits tumor regression.
373. Claim 373 .A composition according to claim 363 , where comparative binding specificity between the antibody or fragment thereof and MAb 53 (accession No. 90012433) is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
374. Claim 374 .A composition according to claim 373 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
375. Claim 375 .A composition according to claim 374 , wherein the antibody or fragment thereof inhibits cytotoxicity.
376. Claim 376 .A composition according to claim 373 , wherein the antibody or fragment thereof inhibits cytotoxicity.
377. Claim 377 .A composition according to claim 375 , wherein the antibody or fragment thereof inhibits tumor regression.
378. Claim 378 .A composition according to claim 373 , wherein the antibody or fragment thereof inhibits tumor regression.
379. Claim 379 .A composition according to any one of claims 363-378, wherein the antibody is a humanized antibody.
380. Claim 380 .A composition according to any one of claims 363-378, wherein the antibody is a chimeric antibody.
381. Claim 381 .An isolated single chain antibody that specifically binds to mature human TNF-α,
wherein when the antibody binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the antibody competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and,
wherein the second antibody is Mab 53 (accession No. 90012433).
382. Claim 382 .An antibody according to claim 381 , wherein the antibody has no effect on the induction of tumor fibrin deposition activity.
383. Claim 383 .An antibody according to claim 381 , wherein the antibody inhibits tumor receptor binding.
384. Claim 384 .An antibody according to claim 383 , wherein the antibody inhibits cytotoxicity.
385. Claim 385 .An antibody according to claim 381 , wherein the antibody inhibits cytotoxicity.
386. Claim 386 .An antibody according to claim 385 , wherein the antibody inhibits tumor regression.
387. Claim 387 .An antibody according to claim 384 , wherein the antibody inhibits tumor regression.
388. Claim 388 .An antibody according to claim 383 , wherein the antibody inhibits tumor regression.
389. Claim 389 .An antibody according to claim 381 , wherein the antibody inhibits tumor regression.
390. Claim 390 .An antibody according to claim 381 , where comparative binding specificity between the antibody and MAb 53 (accession No. 90012433) is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
391. Claim 391 .An antibody according to claim 390 , wherein the antibody inhibits tumor receptor binding.
392. Claim 392 .An antibody according to claim 391 , wherein the antibody inhibits cytotoxicity.
393. Claim 393 .An antibody according to claim 390 , wherein the antibody inhibits cytotoxicity.
394. Claim 394 .An antibody according to claim 392 , wherein the antibody inhibits tumor regression.
395. Claim 395 .An antibody according to claim 390 , wherein the antibody inhibits tumor regression.
396. Claim 396 .An antibody according to any one of claims 381-395, wherein the antibody is a humanized antibody.
397. Claim 397 .An antibody according to any one of claims 381-395, wherein the antibody is a chimeric antibody.
398. Claim 398 .A composition comprising an isolated single chain antibody that specifically binds to mature human TNF-α,
wherein when the antibody binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the isolated antibody competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and
wherein the second antibody is MAb 53 (accession No. 90012433).
399. Claim 399 .A composition according to claim 398 , wherein the antibody has no effect on the induction of tumor fibrin deposition activity.
400. Claim 400 .A composition according to claim 398 , wherein the antibody inhibits tumor receptor binding.
401. Claim 401 .A composition according to claim 400 , wherein the antibody inhibits cytotoxicity.
402. Claim 402 .A composition according to claim 398 , wherein the antibody inhibits cytotoxicity.
403. Claim 403 .A composition according to claim 408 , wherein the antibody inhibits tumor regression.
404. Claim 404 .A composition according to claim 401 , wherein the antibody inhibits tumor regression.
405. Claim 405 .A composition according to claim 400 , wherein the antibody inhibits tumor regression.
406. Claim 406 .A composition according to claim 398 , wherein the antibody inhibits tumor regression.
407. Claim 407 .A composition according to claim 398 , where comparative binding specificity between the antibody and MAb 53 (accession No. 90012433) is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
408. Claim 408 .A composition according to claim 407 , wherein the antibody inhibits tumor receptor binding.
409. Claim 409 .A composition according to claim 408 , wherein the antibody inhibits cytotoxicity.
410. Claim 410 .A composition according to claim 407 , wherein the antibody inhibits cytotoxicity.
411. Claim 411 .A composition according to claim 409 , wherein the antibody inhibits tumor regression.
412. Claim 412 .A composition according to claim 407 , wherein the antibody inhibits tumor regression.
413. Claim 413 .A composition according to any one of claims 398-412, wherein the antibody is a humanized antibody.
414. Claim 414 .A composition according to any one of claims 398-412, wherein the antibody is a chimeric antibody.
415. Claim 415 .An isolated single domain antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the isolated antibody or fragment thereof competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and,
wherein the second antibody is Mab 53 (accession No. 90012433).
416. Claim 416 .An antibody or fragment thereof according to claim 415 , wherein the antibody or fragment thereof has no effect on the induction of tumor fibrin deposition activity.
417. Claim 417 .An antibody or fragment thereof according to claim 415 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
418. Claim 418 .An antibody or fragment thereof according to claim 417 , wherein the antibody or fragment thereof inhibits cytotoxicity.
419. Claim 419 .An antibody or fragment thereof according to claim 415 , wherein the antibody or fragment thereof inhibits cytotoxicity.
420. Claim 420 .An antibody or fragment thereof according to claim 419 , wherein the antibody or fragment thereof inhibits tumor regression.
421. Claim 421 .An antibody or fragment thereof according to claim 418 , wherein the antibody or fragment thereof inhibits tumor regression.
422. Claim 422 .An antibody or fragment thereof according to claim 417 , wherein the antibody or fragment thereof inhibits tumor regression.
423. Claim 423 .An antibody or fragment thereof according to claim 415 , wherein the antibody or fragment thereof inhibits tumor regression.
424. Claim 424 .An antibody or fragment thereof according to claim 415 , where comparative binding specificity between the antibody or fragment thereof and MAb 53 (accession No. 90012433) is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
425. Claim 425 .An antibody or fragment thereof according to claim 424 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
426. Claim 426 .An antibody or fragment thereof according to claim 425 , wherein the antibody or fragment thereof inhibits cytotoxicity.
427. Claim 427 .An antibody or fragment thereof according to claim 424 , wherein the antibody or fragment thereof inhibits cytotoxicity.
428. Claim 428 .An antibody or fragment thereof according to claim 426 , wherein the antibody or fragment thereof inhibits tumor regression.
429. Claim 429 .An antibody or fragment thereof according to claim 424 , wherein the antibody or fragment thereof inhibits tumor regression.
430. Claim 430 .An antibody or fragment thereof according to any one of claims 415-429, wherein the antibody is a humanized antibody.
431. Claim 431 .An antibody or fragment thereof according to any one of claims 415-429, wherein the antibody is a chimeric antibody.
432. Claim 432 .A composition comprising an isolated single domain antibody or fragment thereof that specifically binds to mature human TNF-α,
wherein when the antibody or fragment thereof binds mature human TNF-α, the induction of endothelial procoagulant activity is inhibited,
wherein the antibody or fragment thereof competitively inhibits a second antibody or fragment thereof for specific binding to mature human TNF-α; and,
wherein the second antibody is Mab 53 (accession No. 90012433).
433. Claim 433 .A composition according to claim 432 , wherein the antibody or fragment thereof has no effect on the induction of tumor fibrin deposition activity.
434. Claim 434 .A composition according to claim 432 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
435. Claim 435 .A composition according to claim 434 , wherein the antibody or fragment thereof inhibits cytotoxicity.
436. Claim 436 .A composition according to claim 432 , wherein the antibody or fragment thereof inhibits cytotoxicity.
437. Claim 437 .A composition according to claim 436 , wherein the antibody or fragment thereof inhibits tumor regression.
438. Claim 438 .A composition according to claim 435 , wherein the antibody or fragment thereof inhibits tumor regression.
439. Claim 439 .A composition according to claim 434 , wherein the antibody or fragment thereof inhibits tumor regression.
440. Claim 440 .A composition according to claim 432 , wherein the antibody or fragment thereof inhibits tumor regression.
441. Claim 441 .A composition according to claim 432 , where comparative binding specificity between the antibody or fragment thereof and MAb 53 (accession No. 90012433) is determined by antibody-antibody competition assays in the presence of mature human TNF-α.
442. Claim 442 .A composition according to claim 441 , wherein the antibody or fragment thereof inhibits tumor receptor binding.
443. Claim 443 .A composition according to claim 442 , wherein the antibody or fragment thereof inhibits cytotoxicity.
444. Claim 444 .A composition according to claim 441 , wherein the antibody or fragment thereof inhibits cytotoxicity.
445. Claim 445 .A composition according to claim 443 , wherein the antibody or fragment thereof inhibits tumor regression.
446. Claim 446 .A composition according to claim 441 , wherein the antibody or fragment thereof inhibits tumor regression.
447. Claim 447 .A composition according to any one of claims 432-446, wherein the antibody is a humanized antibody.
448. Claim 448 .A composition according to any one of claims 432-446, wherein the antibody is a chimeric antibody.
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US10/327,351 Abandoned US20030208049A1 (en) | 1992-02-18 | 2002-12-20 | Tumour necrosis factor binding ligands |
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US10/327,541 Abandoned US20040002588A1 (en) | 1989-08-07 | 2002-12-20 | Tumour necrosis factor binding ligands |
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US10/342,740 Abandoned US20030208047A1 (en) | 1989-08-07 | 2003-01-14 | Tumour necrosis factor peptide binding antibodies |
US10/346,499 Abandoned US20040092721A1 (en) | 1989-08-07 | 2003-01-15 | Tumour necrosis factor peptide binding antibodies |
US10/346,400 Abandoned US20030171555A1 (en) | 1989-08-07 | 2003-01-15 | Tumour necrosis factor peptide binding antibodies |
US10/346,498 Abandoned US20040002590A1 (en) | 1989-08-07 | 2003-01-15 | Tumour necrosis factor peptide binding antibodies |
US10/346,299 Abandoned US20030171554A1 (en) | 1989-08-07 | 2003-01-15 | Tumour necrosis factor peptide binding antibodies |
US11/370,641 Abandoned US20060159677A1 (en) | 1989-08-07 | 2006-03-07 | Tumour necrosis factor peptide binding antibodies |
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US20040002588A1 (en) | 2004-01-01 |
US20030162948A1 (en) | 2003-08-28 |
US20040092721A1 (en) | 2004-05-13 |
US20030170204A1 (en) | 2003-09-11 |
US20030232970A1 (en) | 2003-12-18 |
US20030166874A1 (en) | 2003-09-04 |
US20060159677A1 (en) | 2006-07-20 |
US6593458B1 (en) | 2003-07-15 |
US20030135029A1 (en) | 2003-07-17 |
US5959087A (en) | 1999-09-28 |
US20030139577A1 (en) | 2003-07-24 |
US20030139580A1 (en) | 2003-07-24 |
US20030216552A1 (en) | 2003-11-20 |
US20030171555A1 (en) | 2003-09-11 |
US20040002589A1 (en) | 2004-01-01 |
US20030171553A1 (en) | 2003-09-11 |
US20030171554A1 (en) | 2003-09-11 |
US20030199678A1 (en) | 2003-10-23 |
US6416757B1 (en) | 2002-07-09 |
US20040002590A1 (en) | 2004-01-01 |
US20030208049A1 (en) | 2003-11-06 |
US20030208047A1 (en) | 2003-11-06 |
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