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for invention","granted":true,"earliest_filing_date":"1992-08-19","grant_date":"2003-04-29","anticipated_term_date":"2012-09-11","discontinuation_date":"2015-05-25","has_disclaimer":false,"patent_status":"EXPIRED","publication_count":2,"has_spc":false,"has_grant_event":false,"has_entry_into_national_phase":false},"abstract":{"en":[{"text":"\n Antibodies to Tumor Necrosis Factor receptors (TNF-Rs) which inhibit the cytocidal effect of TNF but not its binding to the TNF-Rs, and ligands interacting with other receptors of the TNF/NGF family, are provided together with methods of producing them. The antibodies preferably bind to the fourth cysteine rich domain of the p 75 TNF receptor or to the region between said fourth cysteine rich domain and the cell membrane. \n","lang":"en","source":"USPTO_FULLTEXT","data_format":"ORIGINAL"}]},"abstract_lang":["en"],"has_abstract":true,"claim":{"en":[{"text":"1. A method of inhibiting the cytocidal effect of TNF without blocking TNF binding to the p 75 TNF receptor (residues 27-210 of SEQ ID NO:2), comprising bringing to the vicinity of the p 75 TNF receptor a peptide or antibody comprising the antigen binding portion of an antibody which binds to the fourth cysteine rich domain of the p 75 TNF receptor, which domain consists of the sequence of amino acid residues 163 to 201 of SEQ ID NO:2, or to the region between said fourth cysteine rich domain of the p 75 TNF receptor and the cell membrane, which region consists of the sequence of amino acid residues 201-257 of SEQ ID NO:2, with the proviso that said antigen binding portion is not that of a monoclonal antibody from the clone 67 (CNCM No. I-1368).","lang":"en","source":"USPTO_FULLTEXT","data_format":"ORIGINAL"},{"text":"2. A method in accordance with claim 1 , wherein said peptide or antibody comprises the antigen binding portion of an antibody which binds to the amino acid sequence of residues 163 to 185 of SEQ ID NO:2.","lang":"en","source":"USPTO_FULLTEXT","data_format":"ORIGINAL"},{"text":"3. A method in accordance with claim 1 , wherein said peptide or antibody comprises the antigen binding portion of an antibody which binds to the sequence of amino acid residues 201-257 of SEQ ID NO:2.","lang":"en","source":"USPTO_FULLTEXT","data_format":"ORIGINAL"}]},"claim_lang":["en"],"has_claim":true,"description":{"en":{"text":"\n FIELD OF THE INVENTION \n\n The present invention relates to ligands to Tumor Necrosis Factor receptors (TNF-Rs) which inhibit the effect of TNF but not its binding to the TNF-Rs, as well as to ligands interacting with other receptors of the TNF/NGF family. \n\n BACKGROUND OF THE INVENTION \n\n Tumor necrosis factor (TNF) is a pleiotropic cytokine, produced by a number of cell types, mainly by activated macrophages. It is one of the principal mediators of the immune and inflammatory response. Interest in its function has greatly increased, recently, in view of evidence of the involvement of TNF in the pathogenesis of a wide range of disease states, including endotoxin shock, cerebral malaria and graft-versus-host reaction. Since many of the effects of TNF are deleterious to the organism, it is of great interest to find ways of blocking its action on host cells. An evident target for such intervention are the molecules to which TNF has to bind in order to exert its effects, namely the TNF-Rs. These molecules exist not only in cell-bound, but also in soluble forms, consisting of the cleaved extra-cellular domains of the intact receptors (see Nophar et al., EMBO Journal, 9(10):3269-78, 1990). The soluble receptors maintain the ability to bind TNF, and thus have the ability to block its function by competition with surface receptors. \n\n Another method of TNF inhibition based on the principle of competing with cell-bound molecules, is the use of antibodies recognizing TNF receptors and blocking the ligand binding. \n\n The cell surface TNF-Rs are expressed in almost all cells of the body. The various effects of TNF, the cytotoxic, growth-promoting and others, are all signaled by the TNF receptors upon the binding of TNF to them. Two forms of these receptors, which differ in molecular size: 55 and 75 kilodaltons, have been described, and will be called herein p 55 and p 75 TNF-R, respectively. It should be noted, however, that there exist publications which refer to these receptors also as p 60 and p 80 . \n\n The TNF-Rs belong to a family of receptors which are involved in other critical biological processes. Examples of these receptors are the low affinity NGF receptor, which plays an important role in the regulation of growth and differentiation of nerve cells. Several other receptors are involved in the regulation of lymphocyte growth, such as CDw40 and some others. Another member of the family is the FAS receptor also called APO, a receptor which is involved in signaling for apoptosis and which, based on a study with mice deficient in its function, seems to play an important role in the etiology of a lupus-like disease. Herein, this family of receptors is called TNF/NGF receptor family. \n\n One of the most striking features of TNF compared to other cytokines, thought to contribute to the pathogenesis of several diseases, is its ability to elicit cell death. The cell-killing activity of TNF is thought to be induced by the p 55 receptor. However, this p 55 receptor activity can be assisted by the p 75 receptor, through a yet unknown mechanism. \n\n Parent application No. 07/524,263 and European Patent publications 398,327 and 412,486 disclose antibodies to the soluble TNF-Rs. These antibodies were found to recognize the soluble TNF-Rs and to inhibit the binding of TNF to the TNF-Rs on the cell surface. Monovalent F(ab) fragments blocked the effect of TNF, while intact antibodies were observed to mimic the cytotoxic effect of TNF. European patent publication 585,939 describes ligands interacting with a certain region in TNF-Rs. \n\n SUMMARY OF THE INVENTION \n\n The present invention provides a ligand to a member of the TNF/NGF receptor family, which binds either to the region of the fourth cysteine rich domain of such a receptor, or to the receptor between it and the cell membrane. \n\n The region of the fourth cysteine rich domain will be called herein, for simplicity's sake, the 67 epitope and the antibodies recognizing it the group 67 antibodies. This region may extend between about amino acids pro-141 and thr-179 in the p 75 TNF-R (residues 163-201 of SEQ ID NO:2) or a corresponding region in another member of the TNF/NGF family. More particularly, the region may extend between about amino acids pro-141 and cys-163 of the p 75 TNF-R (residues 163-185 of SEQ ID NO:2) or a corresponding region in another member of the TNF/NGF family. The ligand downstream of the fourth cysteine rich domain includes the amino acid sequence between about thr-179 and about the end of the extracellular domain of the receptor (residues 201-257 of SEQ ID NO:2) or a corresponding region in another member of the TNF/NGF family. \n\n Preferably, the receptor is the TNF-R, in particular the p 75 TNF-R. \n\n One such ligand includes the amino acid sequence for the CDR region of the heavy chain of monoclonal antibody no. 67, and/or of the light chain thereof. \n\n Another such ligand includes the amino acid sequence for the CDR region of the heavy chain of monoclonal antibody no. 81, and/or the light chain thereof. \n\n Yet another such ligand includes the amino acid sequence or antibody against the stalk region, i.e., from about amino acid thr-181 to about amino acid 235-asp. \n\n The ligands may comprise, for example, proteins, peptides, immunoadhesins, antibodies or other organic compounds. \n\n The proteins may comprise, for example, a fusion protein of the ligand with another protein, optionally linked by a peptide linker. Such a fusion protein can increase the retention time of the ligand in the body, and thus may even allow the ligand-protein complex to be employed as a latent agent or as a vaccine. \n\n The term proteins includes muteins and fused proteins, their salts, functional derivatives and active fractions \n\n Functional derivatives as used herein cover derivatives of the ligands and their fused proteins and muteins, which may be prepared from the functional groups which occur as side chains on the residues or the N- or C-terminal groups, by means known in the art, and are included in the invention as long as they remain pharmaceutically acceptable, i.e., they cannot destroy the activity of the ligand and do not confer toxic properties on compositions containing it. These derivatives may, for example, include polyethylene glycol side-chains which may mask antigenic sites and extend the residence of the ligands in body fluids. Other derivatives include aliphatic esters of the carboxyl groups, amides of the carboxyl groups by reaction with ammonia or with primary or secondary amines, N-acyl derivatives of free amino groups of the amino acid residues formed with acyl moieties (e.g., alkanoyl or carbocyclic aroyl groups) or O-acyl derivatives of free hydroxyl groups (for example, that of seryl or threonyl residues) formed with acyl moieties. \n\n As active fractions of the ligands, its fused proteins and its muteins, the present invention covers any fragment or precursors of the polypeptide chain of the ligand alone or together with associated molecules or residues linked thereto, e.g., sugar or phosphate residues, or aggregates of the protein molecule or the sugar residues by themselves, provided said fraction has the same biological and/or pharmaceutical activity. \n\n As used herein the term muteins refers to analogs of the proteins, peptides and the like in which one or more or the amino acid residues of the protein found to bind are replaced by different amino acid residues or are deleted, or one or more amino acid residues are added to the original sequence, without changing considerably the activity of the resulting product. These muteins are prepared by known synthesis and/or by size-directed mutagenesis techniques, or any other known technique suitable therefor. \n\n The term fused protein refers to a polypeptide comprising the ligands or a mutein thereof fused with another protein which has an extended residence time in body fluids. The ligands may thus be fused to another protein, polypeptide or the like, e.g., an immunoglobulin or a fragment thereof. \n\n The term salts herein refers to both salts or carboxyl groups and to- acid addition salts of amino groups of the ligands, muteins and fused proteins thereof. Salts of a carboxyl group may be formed by means known in the art and include inorganic salts, for example, sodium, calcium, ammonium, ferric or zinc salts, and the like, and salts with organic bases as those formed, for example, with amines, such as triethanolamine, arginine or lysine, piperidine, procaine and the like. Acid addition salts include, for example, salts with mineral acids such as, for example, hydrochloric acid or sulfuric acid, and salts with organic acids such as, for example, acetic acid or oxalic acid. \n\n The peptides include peptide bond replacements and/or peptide mimetics, i.e., pseudopeptides, as known in the art (see, e.g., Proceedings of the 20th European Peptide Symposium, ed. G. Jung, E. Bayer, pp. 289-336, and references therein), as well as salts and pharmaceutical preparations and/or formulations which render the bioactive peptide(s) particularly suitable for oral, topical, nasal spray, ocular, pulmonary, I.V. or subcutaneous delivery, depending on the particular treatment indicated. Such salts, formulations, amino acid replacements and pseudopeptide structures may be necessary and desirable to enhance the stability, formulation, deliverability (e.g., slow release, prodrugs), or to improve the economy of production, as long as they do not adversely affect the biological activity of the peptide. \n\n Besides substitutions, three particular forms of peptide mimetic and/or analogue structures of particular relevance when designating bioactive peptides, which have to bind to a receptor while risking the degradation by proteinases and peptidases in the blood, tissues and elsewhere, may be mentioned specifically, illustrated by the following examples: Firstly, the inversion of backbone chiral centres leading to D-amino acid residue structures may, particularly at the N-terminus, lead to enhanced stability for proteolytical degradation without adversely affecting activity. An example is given in the paper Tritriated D-ala ^{ 1 } -Peptide T Binding, Smith C. S. et al., Drug Development Res. 15, pp. 371-379 (1988). Secondly, cyclic structure for stability, such as N to C interchain imides and lactams (Ede et al. in Smith and Rivier (Eds.) Peptides: Chemistry and Biology., Escom, Leiden (1991), pp. 268-270), and sometimes also receptor binding may be enhanced by forming cyclic analogues. An example of this is given in Confirmationally restricted thymopentin-like compounds, U.S. Pat. No. 4,457,489 (1985), Goldstein, G. et al. Thirdly, the introduction of ketomethylene, methylsufide or retroinverse bonds to replace peptide bonds, i.e., the interchange of the CO and NH moieties are likely to enhance both stability and potency. An example of this type is given in the paper Biologically active retroinverso analogues of thymopentin, Sisto A. et al in Rivier, J. E. and Marshall, G. R. (eds) Peptides, Chemistry, Structure and Biology, Escom, Leiden (1990), pp. 722-773). \n\n The peptides of the invention can be synthesized by various methods which are known in principle, namely by chemical coupling methods (cf. Wunsch, E: Methoden der organischen Chemiet, Volume 15, Band 12, Synthese von Peptiden, thime Verlag, Stutt (1974), and Barrany, G.; Marrifield, R. B.: The Peptides, eds. E. Gross, J. Meienhofer, Volume 2, Chapter 1, pp. 1-284, Academic Press (1980)), or by enzymatic coupling methods (cf. Widmer, F. Johansen, J. T., Carlsberg Res. Commun., Vol.44, pp. 37-46 (1979), and Kullmann, W.: Enzymatic Peptide Synthesis, CRC Press Inc. Boca Raton, Fla. (1987), and Widmer, F., Johansen, J. T. in Synthetic Peptides in Biology and Medicines, eds. Alitalo, K., Partanen, P., Vatieri, A., pp.79-86, Elsevier, Amsterdam (1985)), or by a combination of chemical and enzymatic methods if this is advantageous for the process design and economy. \n\n A cysteine residue may be added at both the amino and carboxy terminals of the peptide, which will allow the cyclization of the peptide by the formation of a disulphide bond. \n\n Any modifications to the peptides of the present invention which do not result in a decrease in biological activity are within the scope of the present invention. \n\n There are numerous examples which illustrate the ability of anti-idiotypic antibodies (anti-Id Abs) to an antigen to function like that antigen in its interaction with animal cells and components of cells. Thus, anti-Id Abs to a peptide hormone antigen can have hormone-like activity and interact specifically with a mediator in the same way as the receptor does. (For a review of these properties see: Gaulton, G. N. and Greane, M. I. 1986. Idiotypic mimicry of biological receptors, Ann. Rev. Immunol. Vol. 4, pp. 253-280; Sege K. and Peterson, P. A., 1978, Use of anti-idiotypic antibodies as cell surface receptor probes, Proc. Natl. Acad. Sci. U.S.A., Vol. 75, pp. 2443-2447). \n\n It is expected from this functional similarity of anti-Id Ab and antigen, that anti-Id Abs bearing the internal image of an antigen can induce immunity to such an antigen. (See review in Hiernaux, J. R., 1988, Idiotypic vaccines and infectious diseases, Infect. Immun., Vol. 56, pp. 1407-1413). \n\n It is, therefore, possible to produce anti-idiotypic antibodies to the peptides of the present invention which will have similar biological activity. \n\n Accordingly, the present invention also provides anti-idiotypic antibodies to the peptides of the present invention, the anti-idiotypic antibody being capable of inhibiting TNF toxicity, but not its binding to the receptor. \n\n The individual specificity of antibodies resides in the structures of the peptide loops making up the Complementary Determining Regions (CDRs) of the variable domains of the antibodies. Since in general the amino acid sequence or the CDR peptides of an anti-Id Ab are not identical to or even similar to the amino acid sequence of the peptide antigen from which it was originally derived, it follows that peptides whose amino acid sequence in quite dissimilar, in certain contexts, can take up a very similar three-dimensional structure. The concept of this type of peptide, termed a functionally equivalent sequence or mimotope by Geyson is known. (Geyson, H. M. et al, 1987, Strategies for epitope analysis using peptide synthesis., J. Immun. Methods, Vol. 102, pp. 259-274). \n\n Moreover, the three-dimensional structure and function of the biologically active peptides can be simulated by other compounds, some not even peptidic in nature, but which nevertheless mimic the activity of such peptides. This field is summarized in a review by Goodman, M. (1990), (Synthesis, Spectroscopy and computer simulations in peptide research, Proc. 11th American Peptide Symposium published in Peptides-Chemistry Structure and Biology, pp. 3-29; Eds. Rivier, J. E. and Marshall, G. R. Publisher Escom). \n\n It is also possible to produce peptide and non-peptide compounds having the same three-dimensional structure as the peptides of the present invention. These functionally equivalent structures or peptide mimics will react with antibodies raised against the peptide of the present invention and may also be capable of inhibiting TNF toxicity. \n\n Accordingly, a further embodiment of the present invention provides a compound the three-dimensional structure of which is similar as a pharmacophore to the three-dimensional structure of the peptides of the present invention, the compound being characterized in that it reacts with antibodies raised against the peptides of the present invention and that the compound is capable of inhibiting TNF toxicity. \n\n More detail regarding pharmacophores can be found in Bolin et al., p. 150, Polinsky et al., p. 287, and Smith et al., p. 485, in Smith and Rivier (eds.) Peptides: Chemistry and Biology, Escom, Leiden (1991). \n\n All of the molecules (proteins, peptides, etc.) may be produced either by conventional chemical methods, as described herein, or by recombinant DNA methods. \n\n All of the molecules (proteins, peptides, etc.) may be produced either by conventional chemical methods, as described herein, or by recombinant DNA methods. \n\n The invention also provides DNA molecules encoding the ligands according to the invention, vectors containing them and host cells comprising the vectors and capable of expressing the ligands according to the invention. \n\n The host cell may be either prokaryotic or eukaryotic. \n\n The invention further provides DNA molecules hybridizing to the above DNA molecules and encoding ligands having the same activity. \n\n The invention also provides pharmaceutical compositions comprising the above ligands which are useful for treating diseases induced or caused by the effects of TNF, either endogenously produced or exogenously administered. \n\n The invention also provides for using the ligands according to the invention for increasing the inhibitory effect of a soluble receptor of the TNF/NGF receptor family. As stated above, the soluble receptors, especially those of TNF, have the ability to block the function of TNF by binding it in competition with the surface receptors. Application of a ligand according to the invention together with a soluble receptor is, therefore, expected to increase the inhibitory effect of the soluble receptor. \n\n\n BRIEF DESCRIPTION OF THE FIGURES \n\n FIG. 1 shows the results of the test by which epitope 67 was mapped. \n\n FIGS. 2A-C shows the nucleotide (SEQ ID NO:1) and deduced amino acid (SEQ ID NO:2) sequences of the p 75 receptor. TBP-II and transmembranal domains are boxed and shaded. The region recognized by the group 67 antibodies is underlined, and the region recognized by the anti-stalk antibodies is underlined by a broken line. \n\n FIG. 3 shows the inhibitory effect of the 67 and anti-stalk antibodies on TNF function in HeLa cells. \n\n FIG. 4 shows that antibodies against the upper part of extracellular domain of the p 75 TNF-R are signaling in the HeLa cells. \n\n FIG. 5 shows that antibodies against the upper part of the extracellular domain of the p 75 TNF-R do not signal in A9 cells which express the human p 75 TNF-R. Antibodies of the 67 group do have, though, an inhibitory effect on TNF function in them (FIG. 6 ). \n\n FIG. 6 shows that antibodies against the upper part of the extracellular domain of the p 75 TNF-R inhibit TNF function in A9 cells. \n\n FIG. 7 shows that antibodies against the upper part of the extracellular domain of the p 75 TNF-R do not signal in A9 cells which express the cytoplasmically truncated p 75 TNF-R. Antibodies of the 67 group do have, though, an inhibitory effect on TNF function in them (not shown). \n\n FIG. 8 shows that antibodies against the 67 epitope impede TNF dissociation from p 75 TNF-R. \n\n FIG. 9 shows the sequence homology between several members of the TNF/NGF receptor family (residues 3-155 of hu p 55 TNF-R (SEQ ID NO:3); residues 39-201 of hu p 75 TNF-R (SEQ ID NO:4); residues 31-149 of hu FAS (SEQ ID NO:5); residues 3-161 of hu NGF-R (SEQ ID NO:6); residues 25-187 of hu CDw40 (SEQ ID NO:7); and residues 25-164 of rat Ox40 (SEQ ID NO:8)). \n\n\n DETAILED DESCRIPTION OF THE INVENTION \n\n TNF, as stated above, is a cytokine which initiates its effect on cell function by binding to two specific cell surface receptors: the p 55 and p 75 receptors. Binding of antibodies to the extracellular domain of these receptors can interfere with its effect. However, as shown in a number of studies, antibodies binding to the extracellular domain of the receptors can also trigger the effects of TNF by inducing aggregation of the p 55 receptors, as well as by inducing aggregation of the p 75 receptors. (Engelmann, et al. J. Biol. Chem., Vol. 265, No. 24, pp. 14497-14504, 1990; and unpublished data). \n\n As disclosed in patent application no. 103051, antibodies binding to one particular region in the p 75 receptor are not mimetic but rather inhibitory to the signaling for the cytocidal effect by this receptor. This, in spite of the fact that when binding to this region, these antibodies do not block TNF binding, but rather increase it to some extent. In application no. 106271 this region is more particularly identified as extending between cys-163 and thr-179, in the fourth cysteine rich domain of the receptor. The present invention reveals that the region recognized by certain other antibodies is the region extending downstream of thr-181 and upstream of cys-163 to about cys-142 in the extracellular domain-of the p 75 receptor. \n\n The present invention also reveals that the so-called stalk-antibody recognizes a region downstream of the fourth cysteine rich domain, more particularly the region extending from about amino acid 181 to about amino acid 235. \n\n It was also found in accordance with the present invention that, in case of the 67 epitope antibodies, the divalent antibodies have an effect which mimics TNF action, while the monovalent fragments, such as F(ab), inhibit the cytotoxic effect of TNF. \n\n Based on these findings, small molecular weight compounds, such as peptides or mimetic compounds, which will either inhibit the function of the p 75 receptor, or enhance it, can be defined. \n\n In view of these findings, as well as the close similarity of the receptors in this particular family, this invention relates also to ligands which bind to the same regions in the extracellular domain of the various other members of the TNF/NGF receptor family and modulate the function of the other receptors, similarly to the modulation of the function of TNF. In this receptor family, the localization of cysteines in the extracellular domain and the spacing is highly conserved. Certain members of this family, e.g., CDw40, exhibit particularly high similarity to the p 75 receptor. Particularly in such receptors, ligands binding to these regions are expected to have effects similar to the effect of the ligands according to the present invention on the p 75 receptor. \n\n Recombinant production of the ligands is carried out by known methods commonly employed in the art. \n\n The invention is illustrated by the following non-limiting examples: \n\n EXAMPLE 1 \n\n Monoclonal Antibodies to TBP-II \n\n Production of the Monoclonal Antibodies \n\n Female Balb/C mice (8 weeks old) were injected with 1 g purified TBP-II in an emulsion of complete Freund's adjuvant into the hind foot pads, and three weeks later, subcutaneously into the back in incomplete Freund's adjuvant. The other injections were given in weekly intervals, subcutaneously in PBS. Final boosts were given 4 days (i.p.) and 3 days (i.v.) before the fusion with 9.0 g of TBP-I in PBS. Fusion was performed using NSO/Mr cells and lymphocytes prepared from both the spleen and the local lymphocytes of the hind legs as fusion partners. The hybridomas were selected in DMEM. supplemented with HAT, 15% horse serum and gentamycin 2 g/ml. Hybridomas that were found to produce antibodies to TBP-1 were subcloned by the limiting dilution method and injected into Balb/C mice that had been primed with pristane for the production of ascites. Immunoglobulins were isolated from the ascites by ammonium sulfate precipitation (50% saturation) and then dialyzed against PBS containing 0.02% azide. Purity was approximately 60% as estimated by analysis on SDS-PAGE and staining with Coomassie blue. The isotypes of the antibodies were defined with the use of a commercially available ELISA kit (Amersham, U.K.). \n\n Several positive clones were obtained, subcloned for further studies and characterized. Some of the isolated subclones with their isotype and binding of TBP-II in inverted RIA are listed in Table I. \n\n\n TABLE I \n\n Subclones Producing Monoclonal Antibodies to TBP-II \n Screening with Screening of subclone \n Clone Number iRIA CPM with iRIA CPM Isotype \n\n 13.11 31800 31000 IgG _{ 1 } \n .12 31500 IgG _{ 1 } \n .13 31100 IgG _{ 1 } \n 14.1 15300 15400 IgG _{ 2a } \n .6 16200 IgG _{ 2a } \n .7 15300 IgG _{ 2a } \n 20.2 12800 14200 IgG _{ 2b } \n .5 14300 IgG _{ 2b } \n .6 14800 IgG _{ 2b } \n 22.7 20400 20000 IgG _{ 1 } \n .8 19300 IgG _{ 1 } \n 27.1 1800 27000 IgG _{ 2a } \n .3 25000 IgG _{ 2a } \n .9 28000 IgG _{ 2a } \n 32.4 11315 10900 IgG _{ 2b } \n .5 10700 IgG _{ 2b } \n .6 11200 IgG _{ 2b } \n 33.1 18400 11400 IgG _{ 1 } \n .3 10500 IgG _{ 1 } \n .4 14800 IgG _{ 1 } \n 36.1 27500 26600 IgG _{ 2a } \n .5 24900 IgG _{ 2a } \n .6 24900 IgG _{ 2a } \n 41.3 13800 18100 IgG _{ 1 } \n .7 18100 IgG _{ 1 } \n .10 18800 IgG _{ 1 } \n 67.1 16800 10900 IgG _{ 2a } \n .16 10800 IgG _{ 2a } \n .17 10900 IgG _{ 2a } \n 70.2 15100 5100 IgG _{ 2a } \n .3 5200 IgG _{ 2a } \n .4 5300 IgG _{ 2a } \n 77.2 15300 11800 IgG _{ 2b } \n 78.9 25300 21400 IgG _{ 2a } \n 82.1 17600 25900 IgG _{ 1 } \n .4 25700 IgG _{ 1 } \n .10 26400 IgG _{ 1 } \n 86.2 8800 12200 IgG _{ 2b } \n .5 12600 IgG _{ 2b } \n .11 12800 IgG _{ 2b } \n 19.6 29700 IgG _{ 2a } \n .9 28900 IgG _{ 2a } \n\n\n Hybridomas TBP-II 13-12 and TBP-II 70-2 were deposited with the Collection Nationale de Cultures de Microorganismes (CNCM), Institut Pasteur, 25, rue du Docteur Roux, 75724 Paris CEDEX 15, France on Mar. 12, 1990, and were assigned No. I-929 and No. I-928. respectively. \n\n EXAMPLE 2 \n\n Inverted Radioimmunoassay (iRIA) for the Detection of the Monoclonal Antibodies to TBP-II \n\n This assay was used for estimating the level of the anti-TBP antibodies in the sera of the immunized mice and for screening for the production of the antibodies by hybridomas. PVC 96 -well microtiter plates (Dynatech 1-220-25) were coated for 12 hr at 4 C. with affinity purified goat anti mouse F(ab) immunoglobulins (Biomakor, Israel 10 g/ml in PBS containing 0.02: NaN _{ 3 } ), then blocked for 2 hr at 37 C. with 0.52 BSA in PBS supplemented with 0.05% Tween 20 (Sigma) and 0.02% NaN _{ 3 } (blocking buffer) and washed 3 times with PBS containing 0.05% Tween 20 and 0.02% NaN _{ 3 } (washing buffer). Serum samples, in serial dilutions, or samples of hybridoma growth media (50 l) were applied into the wells for 2 hr at 37 C. The plates were rinsed with washing buffer and ^{ 125 } I-labelled TBP-I (10,000 cpm, in blocking buffer) was applied into the wells. After further incubation of 2 hr at 37 C., the plates were washed and the amount of label which bound to individual wells was determined in the gamma-counter. \n\n EXAMPLE 3 \n\n The Use of Anti-TBP-II Antibodies for Affinity Chromatography \n\n Antibodies against TBP-II can be utilized for the purification of TBP-II by affinity chromatography, according to the following procedure. The monoclonal antibodies for affinity chromatography were selected by testing their binding capacity for the radiolabeled antigen in a solid phase radio immunoassay. Ascites from all hybridomas was purified by ammonium sulfate precipitation at 50% saturation followed by extensive dialysis against PBS. PVC 96-well plates were coated with the purified McAbs, and after blocking the plates with PBS containing 0.5% BSA, 0.05% Tween 20 (Sigma) and 0.02% NaN _{ 3 } , the wells were incubated with 50,000 cpm ^{ 125 } I-TNF for 2 hr at 37 C., then washed and the radioactivity which had bound to each well was quantitated in the gamma-counter. The antibodies with the highest binding capacity were examined for their performance in immunoaffinity chromatography. \n\n Polyacryl hydrazide agarose was used as resin to immobilize the antibodies. The semipurified immunoglobulins were concentrated and coupled to the resin as specified by Wilchek and Miron, Methods in Enzymology 34:72-76, 1979. Three monoclonal antibodies against TBP-I, clones 16, 20, and 34 were tested in these experiments. Antibody columns of 1 ml bed were constructed. Before use, all columns were subjected to 10 washes with the elusion buffer, each wash followed by neutralization with PBS. Then the columns were loaded with 120 ml of concentrated urinary proteins in PBS with 0.02% NaN _{ 3 } . The flow rate of the columns was adjusted to 0.2 to 0.3 ml per minute. After loading, the columns were washed with 50 ml PBS and then eluted with a solution containing 50 mM citric acid, pH 2.5, 100 mM NaCl and 0.02% NaN _{ 3 } . Fractions of 1 ml were collected. Samples of the applied urinary proteins, the last portion of the wash (1 ml) and of each elusion fraction (8 fractions of 1 ml per column) were taken and tested for protein concentration and activity in the bioassay for T3P-II. According to the protein measurements before and after coupling of the antibodies to hydrazide agarose, the amounts of immunoglobulin bound to the columns ranged from 7 to 10 mg/ml agarose. All protein measurements were done according to a micro-flurescamin method in comparison to a standard solution containing 100 g BSA/ml (Stein, S. and Moschera. J., Methods Enzymol. 79:7-16, 1981). \n\n EXAMPLE 4 \n\n Determination of TBP-II Using Anti-TBP-II Antibodies \n\n The levels of TBP-II in the sera of healthy individuals, patients with cancer or systemic lupus erythematosus (SLE) and of pregnant women at term were determined by an ELISA method employing a monoclonal antibody to TBP-IO coating the plates. 50 l of each sample was added and after a 2.5 hr incubation at 37 C. the wells were washed with a solution of PBS, Tween 0.05% and sodium azide 0.02%, after which a rabbit anti-TBP-II polyclonal antibody was added for 2.5 hr at 37 C. Then the wells were washed again (no azide) and goat anti-rabbit horseradish peroxidase-coupled antibody was added for 2 hr. Following this incubation, and washing, an ABTS buffer was added and optical density (O.D.) read 30 min. later at 600 nm. \n\n The normal levels of TBP-II in human serum of healthy individuals as determined by the ELISA method are 1.480.46 ng/ml. \n\n EXAMPLE 5 \n\n Epitope Mapping of TBP-II by Cross Competition Analysis with Monoclonal Antibodies (mAbs) to TBP-II \n\n PVC 96-well microtiter plates were coated as described above, with purified mAbs to TBP-II (25 g/ml). Following rinsing and blocking, samples of ^{ 125 } I-labelled T3P-II (100,000 cpm per well) which had been preincubated for 2 hr, at 37 C. with the same or a different monoclonal antibody to TBP-II (at 1 g/ml) were put into the wells; the plates were incubated overnight at 4 C., washed and the radioactivity bound to each well was determined by gamma counting. The results are expressed as percent of the control values (TBP-II binding in the absence of competing mAbs). \n\n The results are depicted in Table II. The monoclonal antibodies are indicated by the clone numbers in the first row and n left column. Low percent binding values indicate that the two antibodies compete for each other's epitope on TBP-II, while higher values indicate that they bind to different epitopes. Non-competitive antibodies are suitable for use in double-sandwich ELISA, e.g., clones 13 and 70. \n\n\n TABLE II \n\n Cross Competition Analysis with Monoclonal Antibodies to TBP II \n Solid Phase Antibodies \n 13 14 19 20 22 27 32 33 36 41 67 70 77 78 82 86 \n\n 13 4 64 53 73 31 51 161 35 177 72 131 128 77 102 50 101 \n 14 119 20 90 13 13 84 156 11 132 173 134 113 14 70 89 179 \n 19 103 28 7 19 11 5 144 11 144 133 179 123 18 5 85 126 \n 20 119 17 93 14 10 88 149 9 135 170 137 135 16 70 101 181 \n 22 109 26 94 22 13 82 128 12 115 164 136 114 17 68 98 167 \n 27 106 23 11 27 14 8 145 17 152 133 196 136 24 8 82 125 \n 32 150 267 150 291 156 186 14 163 139 200 205 18 294 143 103 226 \n 33 115 19 98 23 16 86 133 12 118 156 120 114 24 78 90 155 \n 36 155 262 168 271 144 185 167 158 12 169 223 135 265 158 93 150 \n 41 117 119 119 118 101 109 118 76 93 9 179 107 106 111 8 9 \n 67 112 138 125 141 125 157 136 107 138 213 30 117 120 127 106 236 \n 70 150 246 150 255 145 166 4 162 166 217 204 6 232 132 107 234 \n 77 121 18 98 15 13 78 148 11 145 184 142 132 18 66 103 184 \n 78 118 20 9 26 10 6 153 13 157 137 183 131 19 6 94 172 \n 82 107 110 130 116 112 121 128 89 90 8 162 102 121 113 8 7 \n 86 122 181 125 166 126 129 131 120 86 18 253 109 152 125 20 17 \n 100% 31582 3958 2057 5437 2947 17395 25923 3525 6368 8042 4368 24113 5887 22222 11608 9703 \n Value \n\n\n EXAMPLE 6 \n\n Mapping of the Epitope 67 of the p 75 TNF-R \n\n In order to compare the function of the 67 group antibodies, not only to antibodies which bind to the receptor at the 67 epitope region, but also to antibodies that bind to the receptor downstream to that epitope region, we immunized rabbits with a chimeric construct corresponding to the region extending downstream to the 32 epitope (amino acids 181 to 235; the stalk region), linked to MED. The rabbits developed antibodies which bound to the chimera with which they were immunized as well as to the intact p 55 TNF receptor. These antibodies were affinity purified by binding to the chimeric protein, linked to an AFFIGEL 10 column (N- hydroxysuccinimide ester of a derivatized cross-linked agarose gel bead support, available from Bio-Rad Laboratories), and tested for effect on TNF function and binding. (The affinity purified antibody preparation was termed 318). The mapping of epitope 67 was carried out by examining the ability of antibodies number 67 and 13 (an antibody that binds to the upper part of the extracellular domain of the p 75 TNF-R) as well as antiserum 318, to immunoprecipitate the following methionine-labeled soluble p 75 TNF-R mutants: WT- a receptor extending from amino acid 22 to amino acid 234, D4D- a receptor like WT, from which the 4th cysteine-rich domain has been deleted (amino acids 141 to 180). The receptors were produced by in vitro transcription of cDNAs encoding them (from the BLUESCRIPT vector (a phagemid vector derived from pUC19, available from Stratagene), using the T7 promoter) followed by in vitro translation using the PROMEGA TNT kit (an in vitro translation kit available from Promega) The immnunoprecipitated proteins were analyzed by SDS PACE, followed by autoradiography. (A) Immnunoprecipitation of WT. All antibodies were effective. (B) Immunoprecipitation of D4D. Only antibodies 13 and 318 were effective. The findings indicate that epitope 67 is located at the upper part of the 4th cysteine rich domain, within about amino acids 141-180. \n\n EXAMPLE 7 \n\n Titration of the Inhibitory Effect of the Group 67 Antibodies and the Anti-Stalk Antibodies on TNF Function \n\n As shown in FIG. 3 , the protective effect of the different antibodies studied on the cytocidal effect of TNF on HeLa p75.3 cells was found to vary depending on the particular antibody used: antibodies 32 and antiserum 313 and their Fab monovalent fragments, which protect, antibody 67, which protects as Fab monovalent fragment and enhances TNF cytotoxicity in its divalent form, and antibody 13 (which binds to the upper part of the extracellular domain of the -75-R) which enhances the cytocidal effect of TNF (p75.3 cells are HeLa cells transfected with the full length p 75 TNF-R). \n\n EXAMPLE 8 \n\n The Inhibitory Effect of the Group 67 and Anti-Stalk Antibodies Is Independent of the Expression and Function of the Intracellular Domain of the p 75 TNF-R \n\n In HeLa cells which over-express the p 75 TNF-R, antibodies against the upper part of the extracellular domain of the receptor have a cytocidal effect, synergistic with that or antibodies against the p 55 -R (FIG. 4 ). However, these antibodies do not have such an effect in A9 cells which express either tine full-length or cytoplasmically-truncated human p 75 TNF-R ( FIGS. 5 and 7 , respectively). However, antibodies which bind to the lower part of the receptor did show inhibitory effect on TNF function even in these cells, irrespective of whether the cells expressed the full-length or the cytoplasmically truncated receptor (see FIG. 6 as well as data not shown). \n\n EXAMPLE 9 \n\n Effect of the Various Antibodies on the Dissociation of TNF Form p 75 TNF \n\n FIG. 8 shows a comparison of the rate of the dissociation of TNF from the p 55 TNF-R, as assessed by measuring the dissociation of radiolabeled TNF from mouse A9 cells expressing transfected human p55 TNF-R (A9D2 cells, in which over 90% of the cell-bound TNF is associated with the human p 55 TNF-R) and from the HeLa p75.3 cells, in which most of the bound TNF is associated with the over-expressed p 75 TNF-R. As opposed to the very slow dissociation of TNF from the p 55 TNF-R, TNF dissociates rather rapidly from the p 75 TNF-R. \n\n EXAMPLE 10 \n\n FIG. 9 shows the internal cysteine rich repeats in the extracellular domains of the two TNF-Rs and their alignment with the homologous repeats in the extracellular domain of the human FAS, nerve growth factor receptor (NGF) and CDw40, as well as rat Ox40. The amino acid sequences (one letter symbols) are aligned for maximal homology. The positions of the amino acids within the receptors are denoted in the left hand margin. \n\n DEPOSIT INFORMATION \n\n Hybridomas TBP-II 67 and 81 were deposited with the Collection National de Cultures de Microorganismes (CNCM), Institut Pasteur, 25, rue du Docteur Roux, 75724 Paris Cedex 15, France, on Oct. 11, 1993 and assigned Nos. I-1368 and I-1369, respectively. \n\n\n\n\n #SEQUENCELISTING \n\n\n (1)GENERALINFORMATION: \n\n (iii)NUMBEROFSEQUENCES:8 \n\n\n (2)INFORMATIONFORSEQIDNO:1: \n\n (i)SEQUENCECHARACTERISTICS: \n (A)LENGTH:2224base \n #pairs \n (B)TYPE:nucleicacid \n (C)STRANDEDNESS:single \n (D)TOPOLOGY:linear \n\n (ii)MOLECULETYPE:cDNA \n\n (ix)FEATURE: \n (A)NAME/KEY:CDS \n (B)LOCATION:90..1472 \n\n (xi)SEQUENCEDESCRIPTION:SEQIDNO:1: \n\n GCGAGCGCAGCGGAGCCTGGAGAGAAGGCGCTGGGCTGCGAGGGCGCGAGGG \n #CGCGAGGG60 \n\n CAGGGGGCAACCGGACCCCGCCCGCACCCATGGCGCCCGTCGCC \n #GTCTGGGCC113 \n\n #MetAlaP \n #roValAlaValTrpAla \n\n #1 \n #5 \n\n GCGCTGGCCGTCGGACTGGAGCTCTGGGCTGC \n #GGCGCACGCCTTGCCC161 \n AlaLeuAlaValGlyLeuGluLeuTrpAlaAl \n #aAlaHisAlaLeuPro \n 10 \n #15 \n #20 \n\n GCCCAGGTGGCATTTACACCCTACGCCCCGGA \n #GCCCGGGAGCACATGC209 \n AlaGlnValAlaPheThrProTyrAlaProGl \n #uProGlySerThrCys \n 25 \n #30 \n #35 \n #40 \n\n CGGCTCAGAGAATACTATGACCAGACAGCTCA \n #GATGTGCTGCAGCAAA257 \n ArgLeuArgGluTyrTyrAspGlnThrAlaGl \n #nMetCysCysSerLys \n 45 \n #50 \n #55 \n\n TGCTCGCCGGGCCAACATGCAAAAGTCTTCTG \n #TACCAAGACCTCGGAC305 \n CysSerProGlyGlnHisAlaLysValPheCy \n #sThrLysThrSerAsp \n 60 \n #65 \n #70 \n\n ACCGTGTGTGACTCCTGTGAGGACAGCACATA \n #CACCCAGCTCTGGAAC353 \n ThrValCysAspSerCysGluAspSerThrTy \n #rThrGlnLeuTrpAsn \n 75 \n #80 \n #85 \n\n TGGGTTCCCGAGTGCTTGAGCTGTGGCTCCCG \n #CTGTAGCTCTGACCAG401 \n TrpValProGluCysLeuSerCysGlySerAr \n #gCysSerSerAspGln \n 90 \n #95 \n #100 \n\n GTGGAAACTCAAGCCTGCACTCGGGAACAGAA \n #CCGCATCTGCACCTGC449 \n ValGluThrGlnAlaCysThrArgGluGlnAs \n #nArgIleCysThrCys \n 1051 \n #101 \n #151 \n #20 \n\n AGGCCCGGCTGGTACTGCGCGCTGAGCAAGCA \n #GGAGGGGTGCCGGCTG497 \n ArgProGlyTrpTyrCysAlaLeuSerLysGl \n #nGluGlyCysArgLeu \n 125 \n #130 \n #135 \n\n TGCGCGCCGCTGCGCAAGTGCCGCCCGGGCTT \n #CGGCGTGGCCAGACCA545 \n CysAlaProLeuArgLysCysArgProGlyPh \n #eGlyValAlaArgPro \n 140 \n #145 \n #150 \n\n GGAACTGAAACATCAGACGTGGTGTGCAAGCC \n #CTGTGCCCCGGGGACG593 \n GlyThrGluThrSerAspValValCysLysPr \n #oCysAlaProGlyThr \n 155 \n #160 \n #165 \n\n TTCTCCAACACGACTTCATCCACGGATATTTG \n #CAGGCCCCACCAGATC641 \n PheSerAsnThrThrSerSerThrAspIleCy \n #sArgProHisGlnIle \n 170 \n #175 \n #180 \n\n TGTAACGTGGTGGCCATCCCTGGGAATGCAAG \n #CATGGATGCAGTCTGC689 \n CysAsnValValAlaIleProGlyAsnAlaSe \n #rMetAspAlaValCys \n 1851 \n #901 \n #952 \n #00 \n\n ACGTCCACGTCCCCCACCCGGAGTATGGCCCC \n #AGGGGCAGTACACTTA737 \n ThrSerThrSerProThrArgSerMetAlaPr \n #oGlyAlaValHisLeu \n 205 \n #210 \n #215 \n\n CCCCAGCCAGTGTCCACACGATCCCAACACAC \n #GCAGCCAACTCCAGAA785 \n ProGlnProValSerThrArgSerGlnHisTh \n #rGlnProThrProGlu \n 220 \n #225 \n #230 \n\n CCCAGCACTGCTCCAAGCACCTCCTTCCTGCT \n #CCCAATGGGCCCCAGC833 \n ProSerThrAlaProSerThrSerPheLeuLe \n #uProMetGlyProSer \n 235 \n #240 \n #245 \n\n CCCCCAGCTGAAGGGAGCACTGGCGACTTCGC \n #TCTTCCAGTTGGACTG881 \n ProProAlaGluGlySerThrGlyAspPheAl \n #aLeuProValGlyLeu \n 250 \n #255 \n #260 \n\n ATTGTGGGTGTGACAGCCTTGGGTCTACTAAT \n #AATAGGAGTGGTGAAC929 \n IleValGlyValThrAlaLeuGlyLeuLeuIl \n #eIleGlyValValAsn \n 2652 \n #702 \n #752 \n #80 \n\n TGTGTCATCATGACCCAGGTGAAAAAGAAGCC \n #CTTGTGCCTGCAGAGA977 \n CysValIleMetThrGlnValLysLysLysPr \n #oLeuCysLeuGlnArg \n 285 \n #290 \n #295 \n\n GAAGCCAAGGTGCCTCACTTGCCTGCCGATAA \n #GGCCCGGGGTACACAG1025 \n GluAlaLysValProHisLeuProAlaAspLy \n #sAlaArgGlyThrGln \n 300 \n #305 \n #310 \n\n GGCCCCGAGCAGCAGCACCTGCTGATCACAGC \n #GCCGAGCTCCAGCAGC1073 \n GlyProGluGlnGlnHisLeuLeuIleThrAl \n #aProSerSerSerSer \n 315 \n #320 \n #325 \n\n AGCTCCCTGGAGAGCTCGGCCAGTGCGTTGGA \n #CAGAAGGGCGCCCACT1121 \n SerSerLeuGluSerSerAlaSerAlaLeuAs \n #pArgArgAlaProThr \n 330 \n #335 \n #340 \n\n CGGAACCAGCCACAGGCACCAGGCGTGGAGGC \n #CAGTGGGGCCGGGGAG1169 \n ArgAsnGlnProGlnAlaProGlyValGluAl \n #aSerGlyAlaGlyGlu \n 3453 \n #503 \n #553 \n #60 \n\n GCCCGGGCCAGCACCGGGAGCTCAGATTCTTC \n #CCCTGGTGGCCATGGG1217 \n AlaArgAlaSerThrGlySerSerAspSerSe \n #rProGlyGlyHisGly \n 365 \n #370 \n #375 \n\n ACCCAGGTCAATGTCACCTGCATCGTGAACGT \n #CTGTAGCAGCTCTGAC1265 \n ThrGlnValAsnValThrCysIleValAsnVa \n #lCysSerSerSerAsp \n 380 \n #385 \n #390 \n\n CACAGCTCACAGTGCTCCTCCCAAGCCAGCTC \n #CACAATGGGAGACACA1313 \n HisSerSerGlnCysSerSerGlnAlaSerSe \n #rThrMetGlyAspThr \n 395 \n #400 \n #405 \n\n GATTCCAGCCCCTCGGAGTCCCCGAAGGACGA \n #GCAGGTCCCCTTCTCC1361 \n AspSerSerProSerGluSerProLysAspGl \n #uGlnValProPheSer \n 410 \n #415 \n #420 \n\n AAGGAGGAATGTGCCTTTCGGTCACAGCTGGA \n #GACGCCAGAGACCCTG1409 \n LysGluGluCysAlaPheArgSerGlnLeuGl \n #uThrProGluThrLeu \n 4254 \n #304 \n #354 \n #40 \n\n CTGGGGAGCACCGAAGAGAAGCCCCTGCCCCT \n #TGGAGTGCCTGATGCT1457 \n LeuGlySerThrGluGluLysProLeuProLe \n #uGlyValProAspAla \n 445 \n #450 \n #455 \n\n GGGATGAAGCCCAGTTAACCAGGCCGGTGTGGGCTGTGTCGTAG \n #CCAAGGTGGGC1512 \n GlyMetLysProSer \n 460 \n\n TGAGCCCTGGCAGGATGACCCTGCGAAGGGGCCCTGGTCCTTCCAGGCCCCC \n #ACCACTAG1572 \n\n GACTCTGAGGCTCTTTCTGGGCCAAGTTCCTCTAGTGCCCTCCACAGCCGCA \n #GCCTCCCT1632 \n\n CTGACCTGCAGGCCAAGAGCAGAGGCAGCGAGTTGGGGAAAGCCTCTGCTGC \n #CATGGTGT1692 \n\n GTCCCTCTCGGAAGGCTGGCTGGGCATGGACGTTCGGGGCATGCTGGGGCAA \n #GTCCCTGA1752 \n\n CTCTCTGTGACCTGCCCCGCCCAGCTGCACCTGCCAGCCTGGCTTCTGGAGC \n #CCTTGGGT1812 \n\n TTTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTCTCCCCCTGGGCTCTGCCC \n #AGCTCTGG1872 \n\n CTTCCAGAAAACCCCAGCATCCTTTTCTGCAGAGGGGCTTTCTGGAGAGGAG \n #GGATGCTG1932 \n\n CCTGAGTCACCCATGAAGACAGGACAGTGCTTCAGCCTGAGGCTGAGACTGC \n #GGGATGGT1992 \n\n CCTGGGGCTCTGTGTAGGGAGGAGGTGGCAGCCCTGTAGGGAACGGGGTCCT \n #TCAAGTTA2052 \n\n GCTCAGGAGGCTTGGAAAGCATCACCTCAGGCCAGGTGCAGTGGCTCACGCC \n #TATGATCC2112 \n\n CAGCACTTTGGGAGGCTGAGGCGGGTGGATCACCTGAGGTTAGGAGTTCGAG \n #ACCAGCCT2172 \n\n GGCCAACATGGTAAAACCCCATCTCTACTAAAAATACAGAAATTAGCCGGGC \n #2224 \n\n\n (2)INFORMATIONFORSEQIDNO:2: \n\n (i)SEQUENCECHARACTERISTICS: \n (A)LENGTH:461amino \n #acids \n (B)TYPE:aminoacid \n (D)TOPOLOGY:linear \n\n (ii)MOLECULETYPE:protein \n\n (xi)SEQUENCEDESCRIPTION:SEQIDNO:2: \n\n MetAlaProValAlaValTrpAlaAlaLeuAl \n #aValGlyLeuGluLeu \n 15 \n #10 \n #15 \n\n TrpAlaAlaAlaHisAlaLeuProAlaGlnVa \n #lAlaPheThrProTyr \n 20 \n #25 \n #30 \n\n AlaProGluProGlySerThrCysArgLeuAr \n #gGluTyrTyrAspGln \n 35 \n #40 \n #45 \n\n ThrAlaGlnMetCysCysSerLysCysSerPr \n #oGlyGlnHisAlaLys \n 50 \n #55 \n #60 \n\n ValPheCysThrLysThrSerAspThrValCy \n #sAspSerCysGluAsp \n 65 \n #70 \n #75 \n #80 \n\n SerThrTyrThrGlnLeuTrpAsnTrpValPr \n #oGluCysLeuSerCys \n 85 \n #90 \n #95 \n\n GlySerArgCysSerSerAspGlnValGluTh \n #rGlnAlaCysThrArg \n 100 \n #105 \n #110 \n\n GluGlnAsnArgIleCysThrCysArgProGl \n #yTrpTyrCysAlaLeu \n 115 \n #120 \n #125 \n\n SerLysGlnGluGlyCysArgLeuCysAlaPr \n #oLeuArgLysCysArg \n 130 \n #135 \n #140 \n\n ProGlyPheGlyValAlaArgProGlyThrGl \n #uThrSerAspValVal \n 1451 \n #501 \n #551 \n #60 \n\n CysLysProCysAlaProGlyThrPheSerAs \n #nThrThrSerSerThr \n 165 \n #170 \n #175 \n\n AspIleCysArgProHisGlnIleCysAsnVa \n #lValAlaIleProGly \n 180 \n #185 \n #190 \n\n AsnAlaSerMetAspAlaValCysThrSerTh \n #rSerProThrArgSer \n 195 \n #200 \n #205 \n\n MetAlaProGlyAlaValHisLeuProGlnPr \n #oValSerThrArgSer \n 210 \n #215 \n #220 \n\n GlnHisThrGlnProThrProGluProSerTh \n #rAlaProSerThrSer \n 2252 \n #302 \n #352 \n #40 \n\n PheLeuLeuProMetGlyProSerProProAl \n #aGluGlySerThrGly \n 245 \n #250 \n #255 \n\n AspPheAlaLeuProValGlyLeuIleValGl \n #yValThrAlaLeuGly \n 260 \n #265 \n #270 \n\n LeuLeuIleIleGlyValValAsnCysValIl \n #eMetThrGlnValLys \n 275 \n #280 \n #285 \n\n LysLysProLeuCysLeuGlnArgGluAlaLy \n #sValProHisLeuPro \n 290 \n #295 \n #300 \n\n AlaAspLysAlaArgGlyThrGlnGlyProGl \n #uGlnGlnHisLeuLeu \n 3053 \n #103 \n #153 \n #20 \n\n IleThrAlaProSerSerSerSerSerSerLe \n #uGluSerSerAlaSer \n 325 \n #330 \n #335 \n\n AlaLeuAspArgArgAlaProThrArgAsnGl \n #nProGlnAlaProGly \n 340 \n #345 \n #350 \n\n ValGluAlaSerGlyAlaGlyGluAlaArgAl \n #aSerThrGlySerSer \n 355 \n #360 \n #365 \n\n AspSerSerProGlyGlyHisGlyThrGlnVa \n #lAsnValThrCysIle \n 370 \n #375 \n #380 \n\n ValAsnValCysSerSerSerAspHisSerSe \n #rGlnCysSerSerGln \n 3853 \n #903 \n #954 \n #00 \n\n AlaSerSerThrMetGlyAspThrAspSerSe \n #rProSerGluSerPro \n 405 \n #410 \n #415 \n\n LysAspGluGlnValProPheSerLysGluGl \n #uCysAlaPheArgSer \n 420 \n #425 \n #430 \n\n GlnLeuGluThrProGluThrLeuLeuGlySe \n #rThrGluGluLysPro \n 435 \n #440 \n #445 \n\n LeuProLeuGlyValProAspAlaGlyMetLy \n #sProSer \n 450 \n #455 \n #460 \n\n\n (2)INFORMATIONFORSEQIDNO:3: \n\n (i)SEQUENCECHARACTERISTICS: \n (A)LENGTH:153amino \n #acids \n (B)TYPE:aminoacid \n (C)STRANDEDNESS:single \n (D)TOPOLOGY:linear \n\n (ii)MOLECULETYPE:peptide \n\n (xi)SEQUENCEDESCRIPTION:SEQIDNO:3: \n\n ValCysProGlnGlyLysTyrIleHisProGl \n #nAsnAsnSerIleCys \n 15 \n #10 \n #15 \n\n CysThrLysCysHisLysGlyThrTyrLeuTy \n #rAsnAspCysProGly \n 20 \n #25 \n #30 \n\n ProGlyGlnAspThrAspCysArgGluCysGl \n #uSerGlySerPheThr \n 35 \n #40 \n #45 \n\n AlaSerGluAsnHisLeuArgHisCysLeuSe \n #rCysSerLysCysArg \n 50 \n #55 \n #60 \n\n LysGluMetGlyGlnValGluIleSerSerCy \n #sThrValAspArgAsp \n 65 \n #70 \n #75 \n #80 \n\n ThrValCysGlyCysArgLysAsnGlnTyrAr \n #gHisTyrTrpSerGlu \n 85 \n #90 \n #95 \n\n AsnLeuPheGlnCysPheAsnCysSerLeuCy \n #sLeuAsnGlyThrVal \n 100 \n #105 \n #110 \n\n HisLeuSerCysGlnGluLysGlnAsnThrVa \n #lCysThrCysHisAla \n 115 \n #120 \n #125 \n\n GlyPhePheLeuArgGluAsnGluCysValSe \n #rCysSerAsnCysLys \n 130 \n #135 \n #140 \n\n LysSerLeuGluCysThrLysLeuCys \n 1451 \n #50 \n\n\n (2)INFORMATIONFORSEQIDNO:4: \n\n (i)SEQUENCECHARACTERISTICS: \n (A)LENGTH:163amino \n #acids \n (B)TYPE:aminoacid \n (C)STRANDEDNESS:single \n (D)TOPOLOGY:linear \n\n (ii)MOLECULETYPE:peptide \n\n (xi)SEQUENCEDESCRIPTION:SEQIDNO:4: \n\n ThrCysArgLeuArgGluTyrTyrAspGlnTh \n #rAlaGlnMetCysCys \n 15 \n #10 \n #15 \n\n SerLysCysSerProGlyGlnHisAlaLysVa \n #lPheCysThrLysThr \n 20 \n #25 \n #30 \n\n SerAspThrValCysAspSerCysGluAspSe \n #rThrTyrThrGlnLeu \n 35 \n #40 \n #45 \n\n TrpAsnTrpValProGluCysLeuSerCysGl \n #ySerArgCysSerAsp \n 50 \n #55 \n #60 \n\n AspGlnValGluThrGlnAlaCysThrArgGl \n #uGlnAsnArgIleCys \n 65 \n #70 \n #75 \n #80 \n\n ThrCysArgProGlyTrpTyrCysAlaLeuSe \n #rLysGlnGluGlyCys \n 85 \n #90 \n #95 \n\n ArgLeuCysAlaProLeuArgLysCysArgPr \n #oGlyPheGlyValAla \n 100 \n #105 \n #110 \n\n ArgProGlyThrGluThrSerAspValValCy \n #sLysProCysAlaPro \n 115 \n #120 \n #125 \n\n GlyThrPheSerAsnThrThrSerSerThrAs \n #pIleCysArgProHis \n 130 \n #135 \n #140 \n\n GlnIleCysAsnValValAlaIleProGlyAs \n #nAlaSerMetAspAla \n 1451 \n #501 \n #551 \n #60 \n\n ValCysThr \n\n\n (2)INFORMATIONFORSEQIDNO:5: \n\n (i)SEQUENCECHARACTERISTICS: \n (A)LENGTH:119amino \n #acids \n (B)TYPE:aminoacid \n (C)STRANDEDNESS:single \n (D)TOPOLOGY:linear \n\n (ii)MOLECULETYPE:peptide \n\n (xi)SEQUENCEDESCRIPTION:SEQIDNO:5: \n\n GlnAsnLeuGluGlyLeuHisHisAspGlyGl \n #nPheCysHisLysPro \n 15 \n #10 \n #15 \n\n CysProProGlyGluArgLysAlaArgAspCy \n #sThrValAsnGlyAsp \n 20 \n #25 \n #30 \n\n GluProAspCysValProCysGlnGluGlyLy \n #sGluTyrThrAspLys \n 35 \n #40 \n #45 \n\n AlaHisPheSerSerLysCysArgArgCysAr \n #gLeuCysAspGluGly \n 50 \n #55 \n #60 \n\n HisGlyLeuGluValGluIleAsnCysThrAr \n #gThrGlnAsnThrLys \n 65 \n #70 \n #75 \n #80 \n\n CysArgCysLysProAsnPhePheCysAsnSe \n #rThrValCysGluHis \n 85 \n #90 \n #95 \n\n CysAspProCysThrLysCysGluHisGlyIl \n #eIleLysGluCysThr \n 100 \n #105 \n #110 \n\n LeuThrSerAsnThrLysCys \n 115 \n\n\n (2)INFORMATIONFORSEQIDNO:6: \n\n (i)SEQUENCECHARACTERISTICS: \n (A)LENGTH:159amino \n #acids \n (B)TYPE:aminoacid \n (C)STRANDEDNESS:single \n (D)TOPOLOGY:linear \n\n (ii)MOLECULETYPE:peptide \n\n (xi)SEQUENCEDESCRIPTION:SEQIDNO:6: \n\n AlaCysProThrGlyLeuTyrThrHisSerGl \n #yGluCysCysLysAla \n 15 \n #10 \n #15 \n\n CysAsnLeuGlyGluGlyValAlaGlnProCy \n #sGlyAlaAsnGlnThr \n 20 \n #25 \n #30 \n\n ValCysGluProCysLeuAspSerValThrSe \n #rSerAspValValSer \n 35 \n #40 \n #45 \n\n AlaThrGluProCysLysProCysThrGluCy \n #sValGlyLeuGlnSer \n 50 \n #55 \n #60 \n\n HisSerAlaProCysValGluAlaAspAspAl \n #aValCysArgCysAla \n 65 \n #70 \n #75 \n #80 \n\n TyrGlyTyrTyrGlnAspGluThrThrGlyAr \n #gCysGluAlaCysArg \n 85 \n #90 \n #95 \n\n ValCysGluAlaGlySerGlyLeuValPheSe \n #rCysGlnAspLysGln \n 100 \n #105 \n #110 \n\n AsnThrValCysGluGluCysProAspGlyTh \n #rTyrSerAspGluAla \n 115 \n #120 \n #125 \n\n AsnHisValAspProCysLeuProCysThrVa \n #lCysGluAspThrGlu \n 130 \n #135 \n #140 \n\n ArgGlnLeuArgGluCysThrArgTrpAlaAs \n #pAlaGluCysGlu \n 1451 \n #501 \n #55 \n\n\n (2)INFORMATIONFORSEQIDNO:7: \n\n (i)SEQUENCECHARACTERISTICS: \n (A)LENGTH:162amino \n #acids \n (B)TYPE:aminoacid \n (C)STRANDEDNESS:single \n (D)TOPOLOGY:linear \n\n (ii)MOLECULETYPE:peptide \n\n (xi)SEQUENCEDESCRIPTION:SEQIDNO:7: \n\n AlaCysArgGluLysGlnTyrLeuIleAsnSe \n #rGlnCysCysSerLeu \n 15 \n #10 \n #15 \n\n CysGlnProGlyGlnLysLeuValSerAspCy \n #sThrGluPheThrGlu \n 20 \n #25 \n #30 \n\n ThrGluCysLeuProCysGlyGluSerGluPh \n #eLeuAspThrTrpAsn \n 35 \n #40 \n #45 \n\n ArgGluThrHisCysHisGlnHisLysTyrCy \n #sAspProAsnLeuGly \n 50 \n #55 \n #60 \n\n LeuArgValGlnGlnLysGlyThrSerGluTh \n #rAspThrIleCysThr \n 65 \n #70 \n #75 \n #80 \n\n CysGluGluGlyTrpHisCysThrSerGluAl \n #aCysGluSerCysVal \n 85 \n #90 \n #95 \n\n LeuHisArgSerCysSerProGlyPheGlyVa \n #lLysGlnIleAlaThr \n 100 \n #105 \n #110 \n\n GlyValSerAspThrIleCysGluProCysPr \n #oValGlyPhePheSer \n 115 \n #120 \n #125 \n\n AsnValSerSerAlaPheGluLysCysHisPr \n #oThrSerCysGluThr \n 130 \n #135 \n #140 \n\n LysAspLeuValValGlnGlnAlaGlyThrAs \n #nLysThrAspValVal \n 1451 \n #501 \n #551 \n #60 \n\n CysGly \n\n\n (2)INFORMATIONFORSEQIDNO:8: \n\n (i)SEQUENCECHARACTERISTICS: \n (A)LENGTH:140amino \n #acids \n (B)TYPE:aminoacid \n (C)STRANDEDNESS:single \n (D)TOPOLOGY:linear \n\n (ii)MOLECULETYPE:peptide \n\n (xi)SEQUENCEDESCRIPTION:SEQIDNO:8: \n\n AsnCysValLysAspThrTyrProSerGlyHi \n #sLysCysCysArgGlu \n 15 \n #10 \n #15 \n\n CysGlnProGlyHisGlyMetValSerArgCy \n #sAspHisThrArgAsp \n 20 \n #25 \n #30 \n\n ThrValCysHisProCysGluProGlyPheTy \n #rAsnGluAlaValAsn \n 35 \n #40 \n #45 \n\n TyrAspThrCysLysGlnCysThrGlnCysAs \n #nHisArgSerGlySer \n 50 \n #55 \n #60 \n\n GluLeuLysGlnAsnCysThrProThrGluAs \n #pThrValCysGlnCys \n 65 \n #70 \n #75 \n #80 \n\n ArgProGlyThrGlnProArgGlnAspSerSe \n #rHisLysLeuGlyVal \n 85 \n #90 \n #95 \n\n AspCysValProCysProProGlyHisPheSe \n #rProGlySerAsnGln \n 100 \n #105 \n #110 \n\n AlaCysLysProTrpThrAsnCysThrLeuSe \n #rGlyLysGlnIleArg \n 115 \n #120 \n #125 \n\n HisProAlaSerAsnSerLeuAspThrValCy \n #sGlu \n 130 \n #135 \n #140 \n\n","lang":"en","source":"USPTO_FULLTEXT","data_format":"ORIGINAL"}},"description_lang":["en"],"has_description":true,"has_docdb":true,"has_inpadoc":true,"has_full_text":true,"biblio_lang":"en"},"jurisdiction":"US","collections":[],"usersTags":[],"lensId":"124-109-760-269-332","publicationKey":"US_6555111_B2","displayKey":"US 6555111 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binding portion of an antibody which binds to the amino acid sequence of residues 163 to 185 of SEQ ID NO:2."],"number":2,"annotation":false,"claim":true,"title":false},{"lines":["A method in accordance with claim 1 , wherein said peptide or antibody comprises the antigen binding portion of an antibody which binds to the sequence of amino acid residues 201-257 of SEQ ID NO:2."],"number":3,"annotation":false,"claim":true,"title":false}]}},"filters":{"npl":[],"notNpl":[],"applicant":[],"notApplicant":[],"inventor":[],"notInventor":[],"owner":[],"notOwner":[],"tags":[],"dates":[],"types":[],"notTypes":[],"j":[],"notJ":[],"fj":[],"notFj":[],"classIpcr":[],"notClassIpcr":[],"classNat":[],"notClassNat":[],"classCpc":[],"notClassCpc":[],"so":[],"notSo":[],"sat":[]},"sequenceFilters":{"s":"SEQIDNO","d":"ASCENDING","p":0,"n":10,"sp":[],"si":[],"len":[],"t":[],"loc":[]}}