In vivo effects of anti-Ia alloantisera. I. Elimination of specific suppression by in vivo administration of antisera specific for I-J controlled determinants.

Pierres, Michel; Germain, R N; Dorf, Martin E.; Benacerraf, Baruj

doi:10.1084/jem.147.3.656

Cited by 50 publications

(17 citation statements)

References 24 publications

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“…In particular the I-J gene(s) do not appear to be typical of other class II histocompatibility genes. Nevertheless, despite present uncertainties concerning the physiological role of I-J (14), there is sound experimental evidence demonstrating that anti-I-J antibodies can be used to abrogate Ts function selectively without influencing the activities of other T-cell subsets (15,16). Thus, the demonstration here of increased susceptibility of anti-I-J-exposed mice to the induction of autoimmunity is consistent with a central role for Ts in mediating selftolerance.…”

supporting

confidence: 59%

“…Ts can be distinguished from other T-cell subsets by the fact that they carry the serologically defined I-J determinant (11) and, thus, can be selectively removed by antibodies with anti-I-J specificity (16 immunized with a single intraperitoneal injection of 2 x 10' normal RRBC which carry not only rat-specific antigens but also determinants with cross-reactivity for mouse erythrocytes (MRBC) as well (17). Blood was collected at intervals thereafter for measurement of antibodies to MRBC and RRBC.…”

Section: Experimental Model For Eliminating T During Embryonicmentioning

confidence: 99%

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A role for suppressor T cells in induction of self-tolerance.

Gibson¹,

Basten²,

Walker³

et al. 1985

Proc. Natl. Acad. Sci. U.S.A.

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The potential role of suppressor T cells (T.) in the Induction of self-tolerance was investigated by eliminating I-J+ cells during ontogeny (I-J antigens are encoded by the I-I subregion of the murine major histocompatibility complex). To achieve this, F1 mice were exposed to anti-I-J antibodies via the transplacental route by mating B1O.A(3R) females, preimmunized with B1O.A(5R) cells, with CBA males. At 6 weeks of age, the offspring were injected with rat erythrocytes (RRBC) to induce erythrocyte autoantibodies. By comparison with agematched controls, T,-depleted mice produced siicantly higher titers of autoantibody, whereas there was no difference in the antibody response of the two groups to the foreign determinants on the RRBC. The selective increase in autoantibody production was mirrored at the clonal level by the appearance of self-reactive B-cell hybridomas after fusion of RRBC-immune spleen cells with the NS-1 cell line. On the other hand, when helper cell function of RRBC-primed cells was measured in a T-cell proliferative assay, Ts depletion in utero resulted in enhanced T-cell activity to nonself (RRBC) but not to self (mouse erythrocyte) determinants. Thus, helper T cells recognizing nonself determinants on RRBC appeared to be responsible for activating self-specific B cells, presumably through linked recognition of different epitopes on mouse erythrocytes. Taken together, these findings indicate that elimination of I-J+ cells during ontogeny can lead to the appearance and activation of "forbidden" B-cell clones and points to a central role for Ts in induction as well as maintenance of self-tolerance.A precise understanding of autoimmunity depends on identification ofthe mechanisms responsible for the induction and maintenance of self-tolerance. Despite substantial advances made in delineating the events underlying the development of tolerance to foreign antigens, a consensus has yet to be reached concerning the cellular basis of self-tolerance. Protagonists of the clonal deletion theory (1) and its more recent modifications (2) base their arguments for a repertoirepurging mechanism on the exquisite sensitivity of immature lymphocytes (e.g., pre-B-cells) to physiological concentrations of antigen (2). On the other hand, there are a number of experimental observations that are not compatible with a simple deletion model of self-tolerance but rather implicate the existence of active suppressor mechanisms capable of inhibiting autoimmune responses. For example, autoantigen binding B cells (3) and autoreactive T helper (Th) cells (4) have been demonstrated in healthy subjects, and it is rela-

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supporting

confidence: 59%

Section: Experimental Model For Eliminating T During Embryonicmentioning

confidence: 99%

A role for suppressor T cells in induction of self-tolerance.

Gibson¹,

Basten²,

Walker³

et al. 1985

Proc. Natl. Acad. Sci. U.S.A.

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“…These findings were subsequently confirmed by Theze et al (9) for a poly(GluU~'l'yrt'~)(GT)-specific TsF and by Greene et al (10) for an azobenzene arsonate-specific TsF. Pierres et al (11,12) demonstrated that the administration of microliter quantities of anti-I-J serum to GT-suppressor strain mice allowed them to make a GT-specific antibody response apparently due to the elimination or inactivation of I-J-bearing Ts. Likewise, Greene et al (13) showed that alloanti-I-J, when administered to S1509a fibrosarcoma-bearing mice, caused regression of the tumor due to the inactivation of tumor-induced Ts.…”

supporting

confidence: 75%

Regulation of immune responses by I-J gene products. I. Production and characterization of anti-I-J monoclonal antibodies.

Waltenbaugh¹

1981

The Journal of Experimental Medicine

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Genes located in the I region of the murine major histocompatibility complex (H-2) regulate specific immune responses to a number of antigens (1, 2). Immune response-associated (Ia) molecules found on most B cells, and to varying degrees on macrophages and T cells, are coded by genes in the 1-A and 1-E subregions and might well be the products of immune response (Ir) 1 and immune suppressor (Is) genes (2-5). Gene products of the I-J subregion, on the other hand, are found on suppressor T (Ts) cells and their soluble factors (TsF) as well as on some helper T cells (Th) and macrophages, all of which are intimately involved in the regulation of the immune response (6). Due in part to a relatively higher degree or frequency of expression, a great deal of information has been amassed as to the function, serology, and biochemistry ofl-A and I-E molecules (3, 4). In contrast, the low frequency (~5%) with which I-J-bearing cells are found in normal cells populations and the difficulty in producing anti-I-J alloantisera (7) have severely limited similar studies of 1-J gene products.

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“…Adult thymectomy (12), treatment with a low dose of cyclophosphamide (13), and administration of antisera directed at I-J region coded determinants of the murine major histocompatibility complex (10,11,14) have been used to selectively diminish suppressor T-cell activity. The reasons for the effectiveness of these procedures stems from the fact that the population of thymus-derived lymphocytes can be differentiated into subsets of cells, each subgroup sharing unique biological functions, cell-surface phenotypes, or physiological characteristics (15 We have previously demonstrated that in vivo administration of anti-I-J serum eliminates suppressor T-cell activity in two independent systems (11,14).…”

Section: Discussionmentioning

confidence: 99%

“…The antisera used in this study were raised in the following strain combinations: anti-Iad, (C3H X LG/ckc)F1 anti-C3H.OH; anti-I-Jk, [B1O.A(3R) X DBA/2]F1 anti-B1O.A(5R); and A anti-I-J3 (3R X 9R)F1 anti-B1O.HTT. The specificity and titer of the sera, including control absorption studies and the protocol for intravenous administration of antisera, were as described (10,11 Table 1, the numbers of Dnp-specific clones expressed in the antisera obtained from thymectomized animals are significantly greater than the numbers of anti-Dnp antibody-producing clones expressed in antisera from control mice in both primary and secondary antibody responses to Dnp-GLA or Dnp-GLL. The increased anti-Dnp antibody heterogeneity of antiDnp-GLA or anti-Dnp-GLt antisera of thymectomized animals is noted even though the antigen-binding capacities of the antisera from thymectomized animals are not significantly greater than the antigen-binding capacities of respective antisera from control mice.…”

mentioning

confidence: 99%

Regulation of antibody heterogeneity by suppressor T cells: diminishing suppressor T cell activity increases the number of dinitrophenyl clones in mice immunized with dinitrophenyl-poly(Glu,Lys,Phe) or dinitrophenyl-poly(Glu,Lys,Ala).

Kipps¹,

Benacerraf²,

Dorf³

1978

Proc. Natl. Acad. Sci. U.S.A.

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The anti-hapten responses to the dinitrophenyl (Dnp) conjugate of the random linear terpolymers poly(LGluLLys,LPhe), GLO, or poly(LGlu,LLysLAla), GLA, are of highly restricted heterogeneity. Thus, individual mice of most responder strains express an average of two to four anti-Dnp clones to Dnp-GLI or Dnp-GLA, as measured by isoeleotric focusing techniques. To explore whether suppressor T cells regulate the heterogeneity of the anti-hapten response to Dnp conjugates of these polypeptides, various procedures aimed at reducing suppressor T-cell activity were tested for their ability to alter the restricted isoelectric focusing spectrotypes. These procedures, such as adult thymectomy, administration of low doses of cyclophosphamide, and in vivo treatment with anti-I-J antisera, significantly increased the magnitude and heterogeneity of the anti-Dnp antibody response to Dnp-GL § and Dnp LIA in strains of mice that possessed responder Ir genes.hmethods failed to alter the nonresponder status of mice that lacked the appropriate Ir genes. Thus, in systems under fr gene control suppressor T-cell mechanisms appear to be involved in the regulation of the heterogeneity of hapten-specific B-cell responses. The immune response to the random linear terpolymer of poly(LGluW,LLyss5,LPhe9), GLU, is controlled by two complementing immune response (Ir) genes located in the I region of the murine major histocompatibility complex (1). The antibody response to the dinitrophenyl (Dnp) hapten coupled to

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In vivo effects of anti-Ia alloantisera. I. Elimination of specific suppression by in vivo administration of antisera specific for I-J controlled determinants.

Cited by 50 publications

References 24 publications

A role for suppressor T cells in induction of self-tolerance.

A role for suppressor T cells in induction of self-tolerance.

Regulation of immune responses by I-J gene products. I. Production and characterization of anti-I-J monoclonal antibodies.

Regulation of antibody heterogeneity by suppressor T cells: diminishing suppressor T cell activity increases the number of dinitrophenyl clones in mice immunized with dinitrophenyl-poly(Glu,Lys,Phe) or dinitrophenyl-poly(Glu,Lys,Ala).

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