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ABSTRACT: Regulatory T cells have been shown to prevent the development of autoimmune disease, and can modulate immune responses during infections or following tissue transplantation. Recently, the processes by which CD4+CD25+ regulatory T cells are produced during immune repertoire formation have begun to be elucidated. This review focuses on the role of self-peptides in mediating CD4+CD25+ regulatory T cell selection in the thymus. How self-peptides continue to have an important influence on the accumulation of CD4+CD25+ regulatory T cells in the periphery is also discussed.
Current topics in microbiology and immunology 02/2005; 293:3-23. · 4.93 Impact Factor
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ABSTRACT: CD4(+)25(+) T cells are a unique population of immunoregulatory T cells which are critical for the prevention of autoimmunity. To address the thymic selection of these cells we have used two models of attenuated thymic deletion. In K14-A(beta)(b) mice, major histocompatibility complex (MHC) class II I-A(b) expression is limited to thymic cortical epithelium and deletion by hematopoietic antigen-presenting cells does not occur. In H2-DMalpha-deficient mice, MHC class II molecules contain a limited array of self-peptides resulting in inefficient clonal deletion. We find that CD4(+)25(+) T cells are present in the thymus and periphery of K14-A(beta)(b) and H2-DMalpha-deficient mice and, like their wild-type counterparts, suppress the proliferation of cocultured CD4(+)25(-) effector T cells. In contrast, CD4(+)25(+) T cells from MHC class II-deficient mice do not suppress responder CD4(+) T cells in vitro or in vivo. Thus, development of regulatory CD4(+)25(+) T cells is dependent on MHC class II-positive thymic cortical epithelium. Furthermore, analysis of the specificities of CD4(+)25(+) T cells in K14-A(beta)(b) and H2-DMalpha-deficient mice suggests that a subset of CD4(+)25(+) T cells is subject to negative selection on hematopoietic antigen-presenting cells.
Journal of Experimental Medicine 09/2001; 194(4):427-38. · 13.85 Impact Factor
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ABSTRACT: Despite accumulating evidence that regulatory T cells play a crucial role in preventing autoimmunity, the processes underlying their generation during immune repertoire formation are unknown. We show here that interactions with a single self-peptide can induce thymocytes that bear an autoreactive T cell receptor (TCR) to undergo selection to become CD4+CD25+ regulatory T cells. Selection of CD4+CD25+ thymocytes appears to require a TCR with high affinity for a self peptide because thymocytes that bear TCRs with low affinity do not undergo selection into this pathway. Our findings indicate that specificity for self-peptides directs the selection of CD4+CD25+ regulatory thymocytes by a process that is distinct from positive selection and deletion.
Nature Immunology 05/2001; 2(4):301-6. · 26.01 Impact Factor
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ABSTRACT: We have examined factors governing the differentiation of autoreactive CD4+ T cells that have evaded deletion by a self peptide. Two lineages of transgenic mice (HA12 and HA104) expressing the influenza virus hemagglutinin (HA) were mated with TS1 mice that express a clonotypic T cell receptor (TCR) specific for the I-Ed-restricted determinant site 1 (S1) of HA. Thymocytes expressing high levels of the clonotypic TCR were deleted in both TS1xHA transgenic lineages. However, through allelic inclusion, thymocytes expressing low levels of the clonotypic TCR and high levels of endogenous TCR alpha-chains evaded deletion in TS1xHA12 and TS1xHA104 mice to graded degrees. When stimulated with S1 peptide in vitro, the non-autoreactive TS1 T cells were biased toward differentiation into Th2 effectors. By contrast, CD4+ T cells that evaded deletion in TS1xHA12 and TS1xHA104 mice were progressively biased toward Th1-like differentiation. Moreover, the effector cells from TS1xHA12 and TS1xHA104 mice secreted higher levels of IFN-gamma , on a per cell basis, than were secreted by their non-autoreactive counterparts. Thus, CD4+ T cells that evade deletion by a self peptide can exhibit an intrinsic bias toward differentiation into Th1 effector cells.
European Journal of Immunology 02/2001; 31(1):311-9. · 5.10 Impact Factor
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ABSTRACT: We have examined B cell populations that participate in distinct phases of the immune response to the influenza virus A/PR/8/34 hemagglutinin (HA) for their susceptibility to negative selection in mice that express the HA as a neo-self-antigen (HA104 mice). We demonstrated previously that specificity for the neo-self-HA causes a population of immunoglobulin G antibody-secreting cells, which dominate the primary response to virus immunization in BALB/c mice, to be negatively selected in HA104 mice. We find here that in contrast to these primary response B cells, HA-specific memory response B cells developed equivalently in HA104 and nontransgenic (BALB/c) mice. Indeed, there was no indication that HA-specific B cells were negatively selected during memory formation in influenza virus-immunized HA104 mice, even though the neo-self-HA can be recognized by memory B cells. Furthermore, HA-specific autoantibodies were induced in the absence of virus immunization by mating HA104 mice with mice transgenic for a CD4(+) HA-specific T cell receptor. These findings indicate that specificity for a self-antigen does not prevent the maturation of autoreactive B cells in the germinal center pathway. Rather, the availability of CD4(+) T cell help may play a crucial role in regulating autoantibody responses to the HA in HA104 mice.
Journal of Experimental Medicine 01/2001; 192(12):1763-74. · 13.85 Impact Factor
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ABSTRACT: We have examined factors governing the negative selection of autoreactive CD4(+) T cells in transgenic mice expressing low (HA12 mice) vs. high (HA104 mice) amounts of the influenza virus hemagglutinin (HA). When mated with TS1 mice that express a transgenic TCR specific for the I-Ed-restricted determinant site 1 (S1) of HA, thymocytes expressing high levels of the clonotypic TCR were deleted in both HA-transgenic lineages. However, through allelic inclusion, thymocytes with lower levels of the clonotypic TCR evaded deletion in TS1 x HA12 and TS1 x HA104 mice to graded degrees. Moreover, in both lineages, peripheral CD4(+) T cells could be activated by the S1 peptide in vitro, and by influenza virus in vivo. These findings indicate that allelic inclusion can allow autoreactive CD4(+) thymocytes to evade thymic deletion to varying extents reflecting variation in the expression of the self peptide, and can provide a basis for the activation of autoreactive peripheral T cells by viruses bearing homologues of self peptides ("molecular mimicry").
The Journal of Immunology 12/2000; 165(9):4870-6. · 5.79 Impact Factor
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ABSTRACT: bcl-2 transgenic mice develop anti-double-stranded (ds) DNA antibodies similar to those present in systemic lupus erythematosus. To begin to understand where a breakdown in the regulation of autoreactive lymphocytes is occurring, we have used a bcl-2 transgene (Tg) in conjunction with an Ig Tg that allows us to identify and track anti-dsDNA B cells. Previously, we have shown that anti-dsDNA B cells are actively tolerized in BALB/c mice as manifested by their developmental arrest, follicular exclusion, increased in vivo turnover rate and lack of their antibody in the serum. The bcl-2 Tg mice increased the lifespan of anti-dsDNA B cells, but did not alter the other features of tolerance, indicating that the anergy of the anti-dsDNA B cells is independent of their reduced lifespan. Furthermore, these data suggest that the serum anti-dsDNA antibodies in bcl-2 transgenic mice are not due to a breakdown in the induction or maintenance of B cell anergy; rather they may originate from B cells that have transited through a germinal center.
International Immunology 04/2000; 12(3):353-64. · 3.41 Impact Factor
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ABSTRACT: To examine the role of cognate peptide in establishing CD4(+) T cell tolerance, we have mated transgenic mice that express the major I-E(d)-restricted determinant (S1) from the influenza virus PR8 hemagglutinin (HA28 mice) with mice expressing a S1-specific T cell receptor (TS1 mice). Surprisingly, S1-specific CD4(+) T cells were not substantially deleted in TS1xHA28 mice; indeed, lymph node cells expressing the S1-specific TCR were as abundant in TS1xHA28 mice as in TS1 mice. The S1-specific T cells in TS1xHA28 mice were, however, impaired in their ability to respond to S1 peptide both in vitro and in vivo, and contained two distinct populations. Approximately half expressed a unique cell surface phenotype (CD25(hi)/CD45RB(int)) and had been anergized by the neo-self S1 peptide. The remainder responded normally to the S1 peptide if purified away from the anergic T cells, but their proliferation was suppressed when the anergic T cells were also present in unfractionated lymphnode cells or in mixed cultures. These findings establish that anergy and suppression are coordinated mechanisms by which autoreactive CD4(+) T cells are regulated and that anergic/suppressor CD4(+) T cells can develop in response to self peptides.
European Journal of Immunology 02/2000; 30(1):136-44. · 5.10 Impact Factor
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ABSTRACT: To analyze mechanisms governing tolerance and autoimmunity to self-antigens, we have generated lineages of transgenic mice that express the influenza virus PR8 hemagglutinin (HA) as a neo-self-antigen. By comparing the HA-specific T and B cell responses that can be induced in HA Tg mice with those that are induced in non-Tg (BALB/c) mice, the specificity and genetic basis with which tolerance is induced to the HA has been examined. This article summarizes studies using lineages of HA Tg mice that express different forms and amounts of the HA under the control of the SV40 promoter/enhancer. Our studies have revealed that specific subsets of HA-specific T and B cells are negatively selected from the primary repertoires of HA Tg mice. However, substantial populations of HA-specific T and B cells evade negative selection and can be activated by virus immunization. Understanding the capacity of these autoreactive lymphocytes to differentiate and participate in antigen-specific immune responses will provide important insights into mechanisms by which autoimmunity might be induced by viruses bearing structural similarities with self-antigens.
Immunologic Research 02/1998; 17(1-2):23-32. · 3.03 Impact Factor
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ABSTRACT: Transgenic (Tg) mice expressing the influenza virus PR8 hemagglutinin (PR8 HA) were infected with PR8 virus and analyzed for their ability to generate T cell responses to individual MHC class II-restricted T cell determinants from the HA. HAmemb and HAtrunc mice each express HA transgene mRNA in many tissues (including the thymus), but differ in the form and amount of the HA that is expressed: HAmemb mice express the entire viral HA as a membrane-bound neo-self antigen, whereas HAtrunc mice express lower levels of a truncated HA polypeptide. HAmemb mice were found to mediate efficient negative selection of autoreactive T cells directed to the major I-Ed-restricted and I-Ad-restricted determinants from the HA (designated S1 and S2 respectively). S1-specific T cell responses were similarly undetectable in PR8-infected HAtrunc mice. However, S2-specific T cells were only partially eliminated in HAtrunc mice; indeed, even though their frequency was reduced relative to non-Tg mice, S2-specific T cells still constituted a sizable population in PR8-infected HAtrunc mice. Moreover, the S2-specific T cells from HAtrunc and non-Tg mice appeared to be equally sensitive to stimulation with S2 peptide, and in each case utilized highly diverse T cell receptors to recognize S2-I-Ad. The findings demonstrate that an individual class II-restricted T cell determinant can be recognized as a cryptic self peptide during T cell repertoire formation and as an immunodominant peptide in the context of an anti-viral T cell response, providing a basis for the induction of autoreactive T cells by viruses containing homologs of self antigens.
International Immunology 03/1997; 9(2):249-61. · 3.41 Impact Factor
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ABSTRACT: We have compared transgenic mice that express the influenza virus PR8 hemagglutinin (PR8 HA) as a membrane-bound neo-self antigen (HA104 mice) with nontransgenic (non-Tg) mice for their ability to generate HA-specific B cell responses after primary immunization with PR8 virus. HA-specific, IgM-secreting B cells were induced with similar frequencies in HA104 and non-Tg mice. In addition, a B cell clonotype (C4) that is characteristic of anti-HA immune responses of BALB/c mice was identified among HA-specific IgM hybridomas from HA104 mice. A subset of HA-specific, IgG-secreting B cells that arises rapidly after primary virus immunization in non-Tg mice, however, was substantially reduced in HA104 mice. Likewise, a B cell clonotype (C12) that dominates HA-specific IgG hybridomas generated after primary immunization of non-Tg mice was present at greatly reduced frequencies among hybridomas from HA104 mice. Because HA-specific, IgG-secreting B cells were generated by HA104 mice in response to a mutant HA containing an amino acid interchange in a B cell antigenic site, we conclude that these PR8 HA-specific, IgG-secreting B cells are negatively selected in HA104 mice as a result of their specificity for the neo-self PR8 HA. The findings demonstrate that HA-specific B cells that display distinct phenotypic potentials in non-Tg mice also differ in their susceptibility to negative selection from the primary B cell repertoire of HA104 mice: a subset of B cells that undergo rapid differentiation to become HA-specific IgG antibody-secreting cells (ASC) after activation in non-Tg mice is negatively selected in HA104 mice. By contrast, a subset that gives rise to HA-specific, IgM-secreting ASC persists in the primary repertoire of HA104 mice and can be activated by virus immunization.
Journal of Experimental Medicine 02/1996; 183(1):13-26. · 13.85 Impact Factor
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ABSTRACT: We have generated transgenic mouse lineages that express the influenza virus hemagglutinin in different physical forms. One kind expresses the full-length hemagglutinin molecule as a cell surface glycoprotein and can be recognized by hemagglutinin-specific B and T cells. The other expresses a truncated polypeptide corresponding to the N-terminal third of the hemagglutinin molecule. This polypeptide encodes known hemagglutinin-specific T-cell determinants; however, it contains no native B-cell epitopes, since these depend on the conformation of the fully folded protein. In each case, the hemagglutinin transgenic mice display ubiquitous expression of transgenic messenger RNA and induce T-cell tolerance to the transgene-encoded T-cell determinant site 1. Thus, the hemagglutinin is a neo-self-antigen in both kinds of hemagglutinin transgenic mice and should provide a useful system for understanding the factors and mechanisms that govern tolerance and autoimmunity to self-antigens.
Journal of Clinical Immunology 12/1995; 15(6 Suppl):106S-112S. · 3.08 Impact Factor
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ABSTRACT: We have analyzed the genetic basis for T cell recognition of an endogenous major histocompatibility complex class II-restricted self peptide. Transgenic mice expressing the influenza virus PR8 hemagglutinin I-Ed-restricted determinant S1 (HA Tg mice) mediate negative selection of PR8 S1-specific T cells, but respond to immunization with a virus containing a closely related analogue, S1(K113). Sequence analysis of S1(K113)-specific T cell receptors (TCR) from nontransgenic mice revealed a dominant TCR clonotype that cross-reacts with PR8 S1. This clonotype is eliminated by negative selection in HA Tg mice; nonetheless, modified versions of this TCR that used altered junctional sequences and a novel V alpha/V beta pairing to evade negative selection by the S1 self peptide were identified. The remaining S1(K113)-specific TCRs from HA Tg mice were highly diverse; 13 of 15 S1(K113)-specific TCRs from HA Tg mice used unique V alpha/V beta pairings. Thus, tolerance to PR8 S1 as a self peptide does not limit the diversity of the T cell response to S1(K113).
Journal of Experimental Medicine 12/1995; 182(5):1327-36. · 13.85 Impact Factor
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ABSTRACT: The specificity with which CD4+ T cells recognize self peptides in vivo was examined in transgenic mice that express an influenza virus PR8 hemagglutinin (HA) polypeptide in many tissues, including the thymus (HA Tg mice). HA Tg and non-Tg mice were analyzed for their T cell responses to the major PR8 HA I-E(d)-restricted CD4+ T cell determinant S1. Negative selection eliminated S1-specific T cells from HA Tg mice. Nevertheless, HA Tg mice retained the ability to mount a T cell response to a closely related analog of the S1 determinant [S1(K113)], and some S1(K113)-specific TCRs displayed a partial reactivity with S1 as indicated by their ability to transmit signals for IL-3 but not IL-2 secretion in response to the neo-self peptide. Moreover, the neo-self S1 peptide antagonized the ability of these TCRs to signal IL-2 secretion in response to the foreign S1(K113) determinant. Thus, TCRs that exhibit a partial reactivity with a self peptide are present in the peripheral T cell repertoire and can be activated by a virus containing an analog of the self peptide. These findings provide a model for the induction of autoimmunity by viruses that are close homologs of self peptides, and suggest a way in which TCRs could react with self peptides during positive selection of developing thymocytes.
International Immunology 07/1995; 7(6):935-45. · 3.41 Impact Factor
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ABSTRACT: Heme is a non-protein autoantigen which stimulates potent proliferative responses by T cells from unprimed mice of some strains. These studies show that T cells responding to heme in primary responses are predominantly CD4+, classically I-A restricted, and use diverse TCR characterized by the expression of distinct V, D and J gene segments. These characteristics distinguish heme from superantigens and mitogens which exhibit degenerate MHC restriction and, in the case of superantigens, restricted V gene usage. Using limiting dilution analysis these studies also show that the potent primary response of H-2s mice reflects a high frequency (0.26-0.45%) of heme responsive T cells in the periphery, comparable to the frequency of alloresponsive T cells reported by others in primary mixed lymphocyte reactions. In contrast, heme responsive T cells occur at -10-fold lower frequency in unprimed H-2d mice (0.03%). To determine the antigen recognized by heme reactive T cells, the mass spectra of peptides eluted from the high responder haplotype, I-A(s), were examined. These indicated a markedly different molecular weight distribution of peptides isolated from cells grown in the presence of heme, compared with those from cells grown in its absence. This suggests that heme mediates the expansion of diverse T cells in the peripheral repertoire by a mechanism similar to that for allogeneic responses in which the profile of naturally processed peptides bound to the MHC class II molecule is changed.
International Immunology 06/1995; 7(5):771-83. · 3.41 Impact Factor
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ABSTRACT: Anti-DNA antibodies, specifically those that stain nuclei in a homogenous nuclear (HN) fashion, are diagnostic of systemic lupus erythematosus (SLE) and the MRL-lpr/lpr SLE murine model. We have used a heavy chain transgene that increases the frequency of anti-HN antibodies to address whether their production in SLE is the consequence of a defect in B cell tolerance. Anti-HN B cells were undetectable in nonautoimmune-prone transgenic mice, but in MRL-lpr/lpr transgenic mice their Ig was evident in the sera and they were readily retrievable as hybridomas. We conclude that nonautoimmune animals actively delete anti-HN-specific B cells, and that MRL-lpr/lpr mice are defective in this process possibly because of the lpr defect in the fas gene.
Journal of Experimental Medicine 04/1995; 181(3):1157-67. · 13.85 Impact Factor
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ABSTRACT: We have analyzed the specificity and structural basis of the CD4+ helper T cell (Th) response of BALB/c mice to influenza virus. We find that many of the viral proteins are recognized by Th, and for one of these proteins we have defined eight distinct Th determinants. Moreover, Th that recognize a single determinant use structurally diverse T cell receptors, and display many unique specificities for the same determinant. These findings demonstrated extensive diversity at several levels of the Th response to influenza virus.
Seminars in Immunology 05/1992; 4(2):85-90. · 6.39 Impact Factor
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ABSTRACT: The early primary B cell response of BALB/c mice to the influenza virus A/PR/8/34 (PR8) hemagglutinin (HA) is dominated by B cells that utilize a single V kappa gene in association with one of two closely related VH genes. We have used an anti-idiotypic reagent that recognizes a light chain-associated idiotope (23-1 Id) on these antibodies to follow their presence during the anti-HA response. Quantitation of 23-1Id+ antibodies at different time points during the anti-HA response indicates that the 23-1Id+ B cell response peaks early after primary immunization and is not re-induced by secondary challenge. Furthermore, 23-1Id+ titers in serum decay rapidly between the first and second week after immunization, and the HA-specific 23-1Id+ precursor B cell population does not significantly expand in the months following immunization. These results indicate that despite their predominance during the primary response, 23-Id+ B cells abruptly disappear from the response and do not mature into memory B cells.
European Journal of Immunology 12/1991; 21(11):2687-95. · 5.10 Impact Factor
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ABSTRACT: We have examined how many different H chain variable (VH) and kappa-chain variable (Vk) germ-line genes are used in the antibody response to the influenza virus A/PR/8/34 hemagglutinin (PR8 HA), and have assessed how the expression of individual VH and/or Vk genes contributes to the generation of specificity for the HA. A panel of 51 hybridoma antibodies that recognize two antigenic regions on the HA were compared for the sequence of their Ig H and L chain V regions. The hybridomas were obtained from 28 individual BALB/c mice that had been immunized with PR8 under a variety of primary and secondary response immunization protocols. The degree and pattern of sequence similarity suggests that 29 different VH genes drawn from seven different VH gene families, and 25 different Vk genes drawn from 12 different Vk gene families were used in this panel. Based on current estimates of the total numbers of VH and Vk genes in the mouse, this suggests that between 2.5 and 10% of the entire VH and Vk germ-line repertoires were used by these hybridomas. Despite this extensive diversity, some V genes were repetitively identified among these hybridomas, and were most often expressed in the context of specific VH/Vk combinations. Because antibodies that used identical VH/Vk combinations also usually displayed similar reactivity patterns with a panel of mutant viruses, this indicates that VH/Vk pairing can be important in establishing the specificity of antibodies for the HA.
The Journal of Immunology 10/1991; 147(5):1675-86. · 5.79 Impact Factor
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ABSTRACT: We have analyzed how the immune system generates antibodies that are specific for analogues of an epitope on the influenza virus hemagglutinin (HA) that differ solely by the presence of Asp or Gly at amino acid 225. Most antibodies induced in response to HA(Asp225) use one of a few closely related variable (V) region structures that are encoded by characteristic VH/Vk gene segment combinations. Remarkably, none of these VH/Vk combinations was induced in response to HA(Gly225). Instead of modifying the HA(Asp225)-specific V regions by junctional variation or somatic mutation to recognize the altered epitope, new VH/Vk combinations were used. The expression of unique VH/Vk combinations appears to confer exquisite specificity to the selection of HA-specific B cells from the pre-immune repertoire.
Journal of Experimental Medicine 10/1991; 174(3):613-24. · 13.85 Impact Factor
