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• W2019677768 abstract "Immunological ReviewsVolume 80, Issue 1 p. 29-76 Specific Suppressor T-Cells Immune to Antigens of the H-2 Complex: Receptors, Clonal Structure, Genetic Restriction and Antigenic Markers B. D. Brondz, B. D. Brondz Cancer Research Center, Moscow, andSearch for more papers by this authorI. F. Abronina, I. F. Abronina Cancer Research Center, Moscow, andSearch for more papers by this authorM. B. Zaiceva, M. B. Zaiceva Institute of Immunology, Moscow, USSR.Search for more papers by this authorA. V. Filatov, A. V. Filatov Institute of Immunology, Moscow, USSR.Search for more papers by this authorA. V. Chervonsky, A. V. Chervonsky Cancer Research Center, Moscow, andSearch for more papers by this author B. D. Brondz, B. D. Brondz Cancer Research Center, Moscow, andSearch for more papers by this authorI. F. Abronina, I. F. Abronina Cancer Research Center, Moscow, andSearch for more papers by this authorM. B. Zaiceva, M. B. Zaiceva Institute of Immunology, Moscow, USSR.Search for more papers by this authorA. V. Filatov, A. V. Filatov Institute of Immunology, Moscow, USSR.Search for more papers by this authorA. V. Chervonsky, A. V. Chervonsky Cancer Research Center, Moscow, andSearch for more papers by this author First published: August 1984 https://doi.org/10.1111/j.1600-065X.1984.tb00494.xCitations: 13 The authors are grateful to Dr. A. P. Suslov for estimation of the MIF activity, to Prof. D. B. Amos, Dr. S. Tonkonogy and Dr. R. G. Vasilov for the generous gift of mAb, to Dr. Z. K. Blandova for supply of congenic and recombinant strains of mice, to Drs. O. V. Rochlin, N. V. Medunitzin and A. D. Chernousov for help in the work, to Drs A. V. Karaulov and A. A. Pimenov for taking part in the experiments, to Ms. G. N. Vomakova for qualified technical assistance. This work is partly supported by WHO. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References Abronina, L.F., Brondz, B.D., Suslov, A.P., Zajceva, M.B. & Karaulov, A.V. (1981) Selective inactivation of specific suppressor T cells immune to antigens of the H-2 complex and prevention of their in vivo generation. Molec. Biol. (Moscow) 15, 1131. Abronina, LF., Karaulov, A.V. & Brondz, B.D. (1980) Characterization of suppressor T ceils concentrated by elution from the monolayer of allogeneic target cells. Bull. Exp. Biol. Med. (Moscow) 89, 202. Al-Adra, A.R. & Pilarski, L.M. (1978) Antigen-specific suppression of cytotoxic T cell responses in mice. L Suppressor T ceils are not cytotoxic cells. Eur. J. Immunol. 8, 504. Albert, F., Buferne, M., Boyer, C. & Schmitt-Verhulst, A.M. (1982) Interactions between MHC-encoded products and cloned T cells. L Fine specificity of induction of proliferation and lysis. Immunogenetics 16, 533. Al-Sakkaf, L., Cooke, A., Heppel, L., Hutchings, P. & Jones, B. (1979) Rabbit anti-EL-4 serum. A reagent with discrimination between murine cytotoxic and suppressor cells. Immunology 38, 609. Andreev, A.V, Drizlikh, G.I. & Brondz, B.D. (1976) Interaction of anti-Kb and anti-Dd effector lymphocytes with mouse target cells of mutant aplotypes. Bull. Exp. Biol. Med. (Moscow) 84, 710. Argyris, B.F. & DeLustre, F. (1977) Immunologic unresponsiveness of mouse spleen sensitized to allogeneic tumors. Celt Immunol. 28, 390. Asano, Y. & Hodes, R.J. (1983) T cell regulation of B cell activation. I-A-restricted T suppressor cells inhibit the major histocompatibility complex-restricted interactions of T helper cells with B cells and accessory cells. J. Exp. Med. 157, 1867. Bach, F.H., Bach, M.L. & Sondel, P.M. (1976) Differential function of major histocompatibility complex antigens in T-lymphocyte activation. Nature 259, 273. Baxevanis, C.N., Ishii, N., Nagy, Z.A. & Klein, J. (1982) Role of the Ek molecule in the generation of suppressor T cells in response to LDHB. Scand. J. Immunol 16, 25. Beck, B.N., Infante, A.J. & Fathman, C.G. (1982) Functional similarities of AeEα Ia molecules as determined by analysis with T-cell clones. Immunogenetics 15, 565. Beckwith, M. & Rich, S.S. (1982) Suppressor-target interaction of alloantigen-induced responses: induction of a second cell in the suppressive pathway. J. immunol 128, 791. Bradly, L.M. (1980) Peanut and soybean agglutinins. In: Selected methods in cellular immunology, B.B. Mishell & S.M. Shiigl (eds.). San Francisco , p. 224. Brondz, B.D. (1968) Complex specificity of immune lymphocyte in allogeneic cell culture. Fol. biol. (Praha) 14, 115. Brondz, B.D. (1982) Specific suppressor T cells and their receptors immune to antigens of the H-2 complex. Soviet Scientific Reviews 3, 371. Brondz, B.D., Abronina, I.F., Blandova, Z.K., Karaulov, A.V. & Pimenov, A.A. (1982c) The differences in receptor cross reactivity and clonal structure between cytotoxic T lymphocytes, specific suppressor T cells and memory T cells immune to antigens of the H-2 complex. In; Mechanisms of cell-mediated cytotoxicity. W.R. Clark & P. Golstein, (eds.) p. 171. Plenum Press, New York & London . Brondz, B.D., Andreev, A.V., Drizlikh, G.I. & Egorova S.G. (1979e) Cross reactions in the H-2 system of cytotoxic T lymphocytes enriched by the absorption-elution technique on target cell monolayers. Bull. Exp. Biol. Med. (Moscow) 87, 176. Brondz, B.D., Andreev, A.V., Egorova, S.G. & Drizlikh, G.I. (1979b) Cross-reactivity of cytotoxic T-lymphocyte antigen-binding receptors immune lo antigens of the H-2 complex. Scand. J. Immunol. 10, 195. Brondz, B.D, Egorov, I.K. & Drizlikh, G.I. (1975a) Private specificities of H-2K and H-2D loci as possible selective targets for effector lymphocytes in cell-mediated immunity. J. Exp. Med. 141, 11. Brondz, B.D., Egorova, S.G. & Kotomina, I.F. (1975b) Enrichment of effector T lymphocytes specific to H-2 antigens by elution from allogeneic target cells and characterization of the eluted lymphocyte population. Eur. J. Immunol. 5, 734. Brondz, B.D., Karaulov, A.V. & Abronina, I.F. (1979c) Evidence for receptors of the specific T suppressor cells immune to the H-2 antigens, and enrichment of these cells by fractionation on target cell monolayer. Molec. Biol. (Moscow) 13, 1291. Brondz, B.D., Karaulov, A.V., Abronina, I.F. & Blandova, Z.K. (1979d) Genetic requirements for induction of specific suppressor T-cells and for realization of their effect in the H-2 system. Genetics (Moscow) 15, 2119. Brondz, B.D., Karaulov, A.V., Abronina, L.F. & Blandova, Z.K. (1980) Biological, immunological and genetic characterization of specific suppressor T cells and their receptors immune to antigens of the H-2 complex. Clonal structure, narrow specificity of receptors and genetic restriction of specific T-suppressor function. Molec. Immunol. 17, 833. Brondz, B.D., Karaulov, A.V., Abronina, I.F. & Blandova, Z.K. (1981) Requirements for induction of specific suppressor T cells and detection of their H-2 antigen-binding receptors. Scand. J. Immunol. 13, 517. Brondz, B.D., Karaulov, A.V., Chervonsky, A.V. & Blandova, Z.K. (1982a) Requirement for the location of both appropriate and irrelevant H-2 antigens on the same stimulator cell for unspecific DNA-synthesis inhibition by the H-2-antigen-primed, specific suppressor T cells. Immunogenetics 15, 167. Brondz, B.D., Khackikyan, E.Ya., & Karaulov, A.V. (1979a) Nature of suppressor cells blocking the DNA synthesis activation in mixed lymphocyte culture. Bull. Exp. Biol. Med. (Moscow) 87, 325. Brondz, B.D., Pimenov, A.A., Blandova, Z.K. & Vornakova, G.N. (1982b) Study on the nature of cross reactivity of cytotoxic T lymphocyte receptors immune to antigens of the H-2 complex by lymphocyte fractionation on target cell monolayers. Molec. Biol. 16, 481. Brondz, B.D. & Rochlin, O.V. (1978) Molecular and Cellular Bases of Immunological Recognition. Nauka, Moscow . Brondz, B.D. & Sncgiröva, A.E. (1971) Interaction of immune lymphocytes with the mixture of target cells possessing selected specificities of the H-2 immunizing allele. Immunology 20, 457. Brondz, B.D., Zaiceva, M.B., Abronina, I.F. & Blandova, Z.K. (1983) Inactivation of specific anii-H-2 suppressor T cells by antisera to I-J and I-C subregion products of the H-2 complex. J. Immunogenet. 10, 425. Burakoff, J., Germain, R.N., & Benacerraf, B. (1976) Cross-reactive lysis of TNP-derivatized H-2 incompatible target cells by cytotoxic T lymphocytes generated against syngeneic TNP spleen cells. J Exp. Med. 144, 1609. Cantor, H. & Boyse, E.A. (1977) Regulation of cellular and humoral immunity by T cell subclasses. Cold Spring Harbour Symp. Quant. Biol. 41, 23. Cantor, H. & Weissman, I. (1976) Development and function of subpopulations of thymocytes and T-lymphocytes. Progr. Allergy 20, 1. Ceredig, R., Glasebrook, A.L. & MacDonald, N.R. (1982) Phenotypic and functional properties of murine thymocytes. I. Precursors of cytolytic T lymphocytes and interleu-kin 2-producing cells are all contained within a subpopulation of “mature” thymocytes as analyzed by monoclonal antibodies and flow microfluorometry. J. Exp. Med. 155, 358. Chan, M.M., Tada, N., Kimura, S., Hoffman, M.K., Miller, R.A., Stutman, O. & Hammerling, G.J. (1983) Characterization of T lymphocyte subsets with monoclonal antibodies: discovery of a distinct marker, Ly-m22, of T suppressor cells. J. Immunol. 130, 2075. Chensus, S.W., Boros, D.L. & David, C.S. (1983) Regulation of granulomatous inflammation in murine shistosomiasis. II. T suppressor cell-cerived, I-C subregion-encoded soluble suppressor factor mediates regulation of lymphokinc production. J. Exp. Med. 157, 219. Chervonsky, A.V, Filatov, A.V, Cherepashin, V.V. & Brondz, B.D. (1984) Murine monoclonal antibodies against rat immuglobulin light chains in radioimmune analysis of lymphocyte differentiation antigens of the mouse. Bull. Exp. Biol. Med. (Moscow) 98. Chin, K.M., Faanes, R.B. & Choi, Y.S. (1980) Activation of specific suppressor cells with heat-treated allogeneic tumor cells. Cell. Immunol. 49, 283. Clark, D.A., Phillips, R.A. & Miller, R.G. (1977) Characterization of the cells that suppress the cytotoxic activity of T lymphocytes. II. Physical properties, specificity and developmental kinetics of the inhibitory splenic non-T cell proliferation. Cell. Immunol, 34, 25. Czitrom, A.A., Sunshine, G.H. & Mitchison, N.A. (1980) Suppression of the proliferative response to H-2D by I-J subregion gene products. Immunogenetics 11, 97. Dennison, D.K., Rich, S.S. & Rich, R.B. (1981) Cellular and antigen requirements for production of mixed leukocyte reaction suppressor factor. J. Immunol. 11, 2176. de Waal, L.P., Kast, W.M., Melvold, R.V. & Melief, C.J.M. (1983) Regulation of the cytotoxic T lymphocyte response against Sendai virus analyzed with H-2 mutants. J. Immunol. 130, 1090. Eisenthal, A., Nachtigal, D. & Feldman, M. (1977) Induction of allospecific suppressor T cells in vitro. Cell. Immunol. 34, 112. Endres, R.O. & Grey, H.M. (1980) Antigen recognition by T cells. 1. Suppressor T cells fail to recognize cross reactivity between nature and denaturated ovalbumin J. Immunol. 125, 1515. van Ewijk, W., van Soest, P.L. & van den Engh, G.J. (1981) Fluorescence analysis and anatomic distribution of mouse T lymphocyte subsets defined by monoclonal antibodies to the antigens Thy-1, Lyt-1, Lyt-2, and T-200.J Immunol. 127, 2594. Fernbach, B.R., Kirchner, H., Bonnard, J.D. & Herberman, R.B. (1976) Suppression of mixed lymphocyte response in mice bearing primary tumors induced by murine sarcoma virus. Transplantation 21, 381. Filatov, A.V., Chervonsky, A.V. & Brondz, B.D. (1984) Production of monoclonal antibodies to Lyt-3.2 antigen. Bull. Exp. Biol. Med. (Moscow) 98. Finberg, R., Burakoff, S.J., Cantor, H. & Benacerraf, B. (1978) Biological significance of alloreactivity: T cells stimulated by Sendai virus-coated syngeneic cells lyse allogeneic target cells. Proc. Nat. Acad. Sci. USA 75, 5145. Fink, P.J., Weissman, J.L. & Bevan, M.J. (1983) Haplotype-specific suppression of cytotoxic T cell induction by antigen inappropriately presented on T cells J. Exp. Med. 157, 141. Fischer-Lindahl, K. & Lemke, H. (1979) Inhibition of killer-target cell interaction by monoclonal anti-H-2 antibodies. Eur J. Immunol. 9, 526. Fischer-Lindahl, K., Peck, A.B. & Bach, F.H. (1975) Specificity of cell-mediated lympho- lysis for public and private H-2 determinate. Scand. J. Immunol. 4, 541. Fitch, F.W., Engers, H.D., Cerottini, J.-C. & Brunner, K.T. (1976) Generation of cytotoxic lymphocytes in vitro. VII. Suppressive effect of irradiated MLC cells on CTL response. J. Immunol. 116, 716. Fujimoto, S., Matsuzawa, T., Nakagawa, K. & Tada T. (1978) Cellular interaction between cytotoxic and suppressor T cells against syngeneic tumors in the mouse. Cell. Immunol 38, 378. Geib, R., Chiang, C. & Klein, J. (1978) Evidence for multiple clones of cytotoxic T cells responding to antigenic determinants on the same molecule. J. Immunol. 120, 300. Golstein, P., Svedmyr, E.A. & Wigzell, H. (1971) Cells mediating specific in vitro cytotoxicity. I. Detection of receptor-bearing lymphocytes J. Exp. Med. 134, 1385. Goodman, J.W. & Sercarz, E.E. (1983) The complexity of structures involved in T cell activation. Ann. Rev. Immunol. 1, 465. Green, D.R., Flood, P.M. & Gershon, R.K. (1983) Immunoregulatory T cell pathways. Ann. Rev. Immunol. 1, 439. Greene, M.I., Dorf, M.E. & Benacerraf, B. (1977) Reduction of syngeneic tumor growth by an anti-I-J alloantiserum. Proc. Natl. Acad. Sci. USA 14, 5118. Greene, M.I. & Perry, L.L. (1978) Regulation of the immune response tumor antigen. IV. Differential specifities of suppressor T cells or their products and effector T cells J. Immunol. 121, 2363. Gullberg, M. & Larsson, E.-L. (1982) Studies on induction and effector production J. Immunol. 128, 746. Guimezanes, A., Davignon, J.-L. & Schmitt-Verhulst, A.M. (1982) Multiple cytolytic T-cell clones with distinct cross-reactivity patterns coexist in anti-self plus hapten cell lines. Immunogenetics 16, 37. Gunn, H.C., Varey, A.-M. & Cooke, A. (1981) Effect of cyclosporin A on the function of T cells. Transplantation 32, 338. Guttman, R.D. (1977) Mixed leukocyte interaction suppression generated after alloimmunization. Transplantation 24, 316. Hess, A.D., Donnenberg, A.D., Tutschka, PJ. & Santos, G.M. (1983) Effect of cyclosporin A on human lymphocyte responses in vitro. V. Analysis of responding T lymphocyte subpopulations in primary MLR with monoclonal antibodies. J. Immunol. 130, 717. Hirano, T. & Nordin, A.A. (1976) Cell-mediated immune response in vitro. I. The development of suppressor cells and cytotoxic lymphocytes in mixed lymphocyte cultures. J. Immunol. 116, 1115. Hodes, R.L. & Hatchcock, K.S. (1979) Regulatory mechanisms in cell-mediated immune responses. IV. Evidence for the spontaneous generation of suppressor cells in vitro. Transplantation 28, 430. Holan, C. & Mitchison, N.A. (1983) Haplotype-specific suppressor T cells mediating linked suppression of immune responses elicited by third-party H-2 alloantigens. Eur. J Immunol. 13, 652. Hunt, P. & Sears, D.W. (1983) CTL cross-reactivities reveal sheared immunodominant determinants created by structurally homologous regions of MHC class I antigens. J. Immunol. 130, 1439. Ikezawa, Z., Daxevanis, C.N., Nonaka, M., Abe, R., Tada, T., Nagy, Z.A. & Klein, J. (1983) Monoclonal suppressor factor specific for lactate dehydrogenase B. I. Mechanism of interaction between the factor and its target cells. J. Exp. Med. 157, 1855. Kakimoto, K., Fuji, H., Grossberg, A.L. & Pressman, D. (1978) Further characterization of the suppressor cells, activated by goat anti-Th-B antibody reagent and responsible for enhancing growth of Sarcoma 180 in AKR mice. Cell. Immunol. 37, 61. Kontiainen, S. & Feldman, M. (1976) Suppressor cell induction in vitro. I. Kinetics of induction of antigen-specific suppressor cells. Eur. J. Immunol. 6, 296. Kramer, M. & Koszinowski, U. (1982) T cell-specific suppressor factor(s) with regulatory influence on interleukin 2 production and function. J. Immunol. 128, 789. Kraskina, N.A., Lopatina, T.K., Mokrenco, A.I., Karaulov, A.V. & Pisarev, V.M. (1980) Specific anti-suppressor T-cell serum and its effect on different types of immune response. Immunologia (Moscow) 4, 50. Krönke, M., Scheurich, P, Pfizenmaier, K., Rollinghoff, M. & Wagner, H. (1982) T-T cell interactions during in vitro cytotoxic T lymphocyte responses. V. Precursor frequencies and specificity of alloreactive helper T cells. J. Exp. Med. 156, 41. Lake, W.W., Bice, D., Schwartz, H.J. & Salvaggio, J. (1971) Suppression of in vitro antigen induced lymphocyte transformation by carrageenan a macrophage-toxic agents. J. Immunol. 107, 1745. Landolfo, S., Giovarelli, M. & Forni, G. (1979) Alloantigen requirements for non-proliferative activation of T lymphocytes. Transplantation 27, 290. Ledbetter, J.A. & Herzenberg, L.A. (1979) Xenogeneic monoclonal antibodies to mouse lymphoid differentiation antigens. Immunol. Rev. 47, 63. Levy, R.B., Gilheany, P.E. & Shearer, G.M. (1980) Role of self and foreign antigenic determinants in allogeneic and self-restricted cytotoxic T cell ecognition. J. Exp. Med. 152, 405. Levy, R.B. & Shearer, G.M. (1982) Cell-mediated lympholysis responses against autologous cells modified with haptenic sulfhydryl reagents. IV: Self-determinants recognized by wild-type anti-H-2Kb - and anti-H-2Db-restricted cytotoxic T cells specific for sulfhydryl and amino-reactive haptens are absent in certain H-2 mutant strains. J. Immunol. 129, 1525. Lewis, G.K. & Goodman, J.W. (1978) Purification of functional, determinant-specific, idiotype-bearing murine T cells. J. Exp. Med. 148, 915. Liew, F. (1981) Regulation of delayed-type hypersensitivity. VII. The role of I-J subregion gene products in the inhibition of delayed-type hypersensitivity to major histocompatibility antigens by specific suppressor T cells. Eur. J. Immunol. 11, 883. Mage, M.G., McHugh, L.L. & Rothstein, T.L. (1977) Mouse lymphocytes with and without surface immunoglobulin: preparative scale separation in polystyrene tissue culture dishes coated with specifically purified anti-immunoglobin. J. Immunol. Methods 15, 47. Melief, C.J.M., de Waal, L.P., van der Meulen, M.Y., Melvold, R.W. & Kohn, H.J. (1980) Fine specificity of alloimmune cytotoxic T lymphocytes detected against H-2K. A study with Kb mutants. J. Exp. Med, 151, 993. Miller, C.L. & Cloudy, B.Y. (1979) Suppressor T-cell activity induced as a result of thermal injury. Cell. Immunol. 44, 201. Mills, C.D. & North, R.J. (1983) Expression of passively transferred immunity against an established tumor depends on generation of cytolytic T cell in recipient. Inhibition by suppressor T cells. J. Exp. Med. 157, 1448. Ochi, A., Nonaka, H., Haykame, K., Okumura, K. & Tada, T. (1982) Two loci in 1-J subregion of the H-2 complex controlling molecules selectively expressed on suppressor and helper T cells. J. Immunol. 129, 227. Owen, F.L. (1980) A mature T-Iymphocyte marker closely linked to Igh-I that is expressed on the precursor for the suppressor T-cell regulating a primary response to SRBC. J. Immunol. 124, 1411. Peavy, D.L. & Pierce, C.W. (1975) Cell-mediated immune responses in vitro. II. Simultaneous generation of cytotoxic lymphocyte responses to two sets of alloantigens of limited-cross-reactivity. J. Immunol. 115, 1515. Petrosjan, M.N., Chervonsky, A.V, Ibragimov, A.R., Vengerova, T.I., Brondz, B.D. & Rochlin, O.V. (1981) Immunoglobulin light chain gene expression in the hybrid lymphoid cells. Proc. Acad. Sci. USSR (Moscow) 256, 509. Pierres, M., Germain, R.N., Dorf, M.E. & Benacerraf, B. (1977) Potentiation of primary in vitro antibody response by alloantisera against gene products of the 1-region of H- 2 complex. Proc. Natl. Acad. Sci. USA 74, 3975. Pierres, M., Germain, N.N., Dorf, M.E. & Benacerraf, B. (1978) In vitro effects anti-la alloantisera. Elimination of specific suppression by in vitro administration of antisera specific for I-J controlled determinants. J. Exp. Med. 147, 656. Pimenov, A.A., Abronina, I.F. & Brondz, B.D. (1984) Comparative study of the conditions for demonstration of memory T cells receptors and other T lymphocyte subpopulations immune to the H-2 complex antigens. Bull. Exp. Biol. Med. (Moscow) 97, 66. Plata, F. (1982) Specificity studies of cytolytic T lymphocytes directed against murine leukemia virus-induced tumors. Analysis by monoclonal cytolytic T lymphocytes. J. Exp. Med. 155, 1050. Reinisch, C.L., Andrew, S.L. & Schlossman, S.F. (1977) Suppressor cell regulation of immune response to tumors: abrogation by adult thymectomy. Proc. Nat. Acad. Sci. USA 74, 2989. Rich, S.S. (1983) Regulatory mechanisms in cell-mediated immune responses. Role of I-J and I-C determinants in the activation of H-2I and H-2K/D alloantigen-specific suppressor T cells. J. Exp. Med. 158, 738. Rich, R.R., Chu, L. & Rich, S.S. (1977) Fractionation of lymphocyte subpopulations which regulate mixed lymphocyte reaction. J. Immunol. 118, 1252. Rich, S.S. & David, C.S. (1979) Regulatory mechanisms in cell-mediated immune responses. VIII. Differential expression of I-region determinants by suppressor cells and their targets in suppression of mixed leukocyte reactions. J. Exp. Med. 150, 1108. Rich, S.S., David, C.S. & Rich, R.R. (1979) Regulatory mechanisms in cell-mediated immune responses. VII. Presence of I-C subregion determinants on mixed leukocyte reaction suppressor factor. J. Exp. Med. 149, 114. Rich, S.S. & Rich, R.R. (1974) Regulatory mechanisms in cell-mediated immune responses. I. Regulation of mixed leukocyte reactions by alloantigen-activated thymus-derived lymphocytes. J. Exp. Med, 140, 1588. Rochlin, O.V, Vengerova, T.I. & Nezlin, R.S. (1971) RL allotypes of light chains of rat immunoglobulins. Immunochemistry 8, 525. Shearer, G.M. & Levy, K. (1983) Graft-vs-host-associated immune suppression is activated by recognition of allogeneic murine I-A antigens. J. Exp. Med. 157, 936. Sherman, L.A. (1982) Recognition of conformational determinants on H-2 by cytolytic T lymphocytes. Nature 297, 511. Shimizu, S., Kimura, T., Kakinuma, M. & Ohara, T. (1979) Intrathymic injection of antigen: a potent procedure for the induction of suppressor T cells. J. Immunol. Methods 34, 41. Shimizu, S., Smith, R.T., Norcraft, M.A. & Maino, V.S. (1982) Mechanism controlling TCGF production by clone sublines of EL-4 argr in response to stimulation by anti- Thy-1 antibody. J. Immunol. 126, 296. Sondel, P.M., Jacobson, M.W. & Bach, F.H. (1977) Selective activation of human suppressor cells by a non-proliferative stimulus. Eur. J. Immunol. 7, 38. Suslov, A.P. & Chemousov, A.D. (1979) A simplified modification of the technique for macrophage migration inhibition in mice. Bull, Exp. Biol. Med. (Moscow) 88, 236. Suslov, A.P., Eliseeva, L.S., Brondz, B.D., Abronina, LF. & Chervonsky, A.V. (1980a) Effect of thymectomy and adrenalectomy of adult animals, as well as of serotonin, on the functional activity of T-lymphocytes, immune to the H-2 complex antigens. Immunologia (Moscow) 4, 74. Suslov, A.P., Gering, S., Kharkevich, D.D. & Blandova, Z.K. (1980b) Variation in cross reactivity of MIF-producers in the course of immune response in the H-2 system. Bull. Exp. Biol. Med. (Moscow) 89, 437. Swain, S.L. & Dutton, R.W. (1977) Negative allogeneic effects in vitro. II. Mapping of histocompatibility differences leading to allosuppression. J. Immunol. 119, 1179. Taniguchi, M. & Miller, J.F.A. P. (1977) Enrichment of specific suppressor T cells and characterization of their surface markers. J. Exp. Med. 146, 1450. Taswell, C.T., MacDonald, H.R. & Cerottini, J.-C. (1980) Clonal analysis of cytolytic T lymphocyte specificity. 1. Phenotypically distinct sets of clones as the cellular basis of cross-reactivity to alloantigens. J. Exp. Med. 151, 1372. Teh, H.-S., Phillips, R.A. & Miller, R.G. (1978) Quantitative studies on the precursors of cytolytic lymphocytes. IV. Specificity and cross-reactivity of cytotoxic clones. J. Immunol. 120, 425. Teh, H.-S., Romaniuk, R. & von Boehmer, H. (1983) H-2D products do not affect lysis of Kk target cells by Kk-specific cytotoxic T cells. Eur, J. Immunol. 13, 259. Vasquez, A., Neauport-Sautes, C. & Senik (1980) Separate cytotoxic T lymphocyte subsets recognize the different H-2 specificities. J. Exp. Med. 151, 776. Wagner, H., Starzinski-Powitz, IC., Pfizenmaier, K. & Röllingholf, M. (1976) Regulation of T cell-mediated cytotoxic allograft responses. 1. Evidence for antigen-specific suppressor T cells. Eur. J. Immunol. 6, 873. Weyand, C., Gorenzy, J. & Hämmerling, G.J. (1981) Recognition of polymorphic H-2 domain by T lymphocytes. L Functional role of different H-2 domains for the generation of allo-reactive cytotoxic T lymphocytes and determination of precursor frequencies. J. Exp. Med. 154, 1717. Williams, A.F., Galfre, G. & Milstein, C. (1977) Analysis of cell surfaces by xenogeneic myeloma-hybrid antibodies differentiation antigens of rat lymphocytes. Cell 12, 663. Citing Literature Volume80, Issue1August 1984Pages 29-76 ReferencesRelatedInformation" @default.
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• W2019677768 title "Specific Suppressor T-Cells Immune to Antigens of the H-2 Complex: Receptors, Clonal Structure, Genetic Restriction and Antigenic Markers" @default.
• W2019677768 cites W130673696 @default.
• W2019677768 cites W1438961266 @default.
• W2019677768 cites W1480771612 @default.
• W2019677768 cites W1500675169 @default.
• W2019677768 cites W1511026723 @default.
• W2019677768 cites W1534285893 @default.
• W2019677768 cites W1540358832 @default.
• W2019677768 cites W1552347252 @default.
• W2019677768 cites W1554401298 @default.
• W2019677768 cites W1607040105 @default.
• W2019677768 cites W1607233639 @default.
• W2019677768 cites W1635028403 @default.
• W2019677768 cites W1761900448 @default.
• W2019677768 cites W1915980932 @default.
• W2019677768 cites W1932415439 @default.
• W2019677768 cites W1936085417 @default.
• W2019677768 cites W1964048165 @default.
• W2019677768 cites W1964266791 @default.
• W2019677768 cites W1968131846 @default.
• W2019677768 cites W1973247418 @default.
• W2019677768 cites W1976158962 @default.
• W2019677768 cites W1977904979 @default.
• W2019677768 cites W1980138762 @default.
• W2019677768 cites W1983661359 @default.
• W2019677768 cites W1983794135 @default.
• W2019677768 cites W1985121249 @default.
• W2019677768 cites W1988876089 @default.
• W2019677768 cites W1988918650 @default.
• W2019677768 cites W1993281140 @default.
• W2019677768 cites W1993798903 @default.
• W2019677768 cites W1993875521 @default.
• W2019677768 cites W1995239205 @default.
• W2019677768 cites W2008809605 @default.
• W2019677768 cites W2013689026 @default.
• W2019677768 cites W2020818268 @default.
• W2019677768 cites W2021455174 @default.
• W2019677768 cites W2030036427 @default.
• W2019677768 cites W2030549412 @default.
• W2019677768 cites W2039995361 @default.
• W2019677768 cites W2044094057 @default.
• W2019677768 cites W2048908398 @default.
• W2019677768 cites W2049730457 @default.
• W2019677768 cites W2051155049 @default.
• W2019677768 cites W2051662417 @default.
• W2019677768 cites W2051709864 @default.
• W2019677768 cites W2052818737 @default.
• W2019677768 cites W2057085822 @default.
• W2019677768 cites W2058573159 @default.
• W2019677768 cites W2060736493 @default.
• W2019677768 cites W2061688170 @default.
• W2019677768 cites W206434379 @default.
• W2019677768 cites W2064798853 @default.
• W2019677768 cites W2064963411 @default.
• W2019677768 cites W2065752220 @default.
• W2019677768 cites W2070437307 @default.
• W2019677768 cites W2073423268 @default.
• W2019677768 cites W2076600235 @default.
• W2019677768 cites W2077038157 @default.
• W2019677768 cites W2079255650 @default.
• W2019677768 cites W2081289656 @default.
• W2019677768 cites W2086510759 @default.
• W2019677768 cites W2090178276 @default.
• W2019677768 cites W2092740055 @default.
• W2019677768 cites W2096303665 @default.
• W2019677768 cites W2101380003 @default.
• W2019677768 cites W2104138107 @default.
• W2019677768 cites W2106431916 @default.
• W2019677768 cites W2111079695 @default.
• W2019677768 cites W2111864152 @default.
• W2019677768 cites W2112999151 @default.
• W2019677768 cites W2125092533 @default.
• W2019677768 cites W2129721227 @default.
• W2019677768 cites W2129996008 @default.
• W2019677768 cites W2134191017 @default.
• W2019677768 cites W2149332206 @default.
• W2019677768 cites W2150783682 @default.
• W2019677768 cites W2150930826 @default.
• W2019677768 cites W2152553761 @default.
• W2019677768 cites W2154230619 @default.
• W2019677768 cites W2156581140 @default.
• W2019677768 cites W2156625054 @default.
• W2019677768 cites W2161455453 @default.
• W2019677768 cites W2161676569 @default.
• W2019677768 cites W2166529851 @default.
• W2019677768 cites W2171725615 @default.
• W2019677768 cites W2276211904 @default.
• W2019677768 cites W4313306010 @default.
• W2019677768 cites W4313310511 @default.

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