Public T cell receptor beta-chains are not advantaged during positive selection.

Studies of human and murine T cells have shown that public TCR beta-chain rearrangements can dominate the Ag-specific and naive repertoires of distinct individuals. We show that mouse T cells responding to the minor histocompatibility Ag HYDbSmcy share an invariant Vbeta8.2-Jbeta2.3 TCR gene rearrangement. The dominance of this rearrangement shows that it successfully negotiated thymic selection and was highly favored during clonal expansion in all animals examined. We hypothesized that such beta-chains are advantaged during thymic and/or peripheral selection and, as a result, may be over-represented in the naive repertoire. A sequencing study was undertaken to examine the diversity of Vbeta8.2-Jbeta2.3 CDR3 loops from naive T cell repertoires of multiple mice. Public TCR beta-chain sequences were identified across different repertoires and MHC haplotypes. To determine whether such public beta-chains are advantaged during thymic selection, individual chains were followed through T cell development in a series of novel bone marrow competition chimeras. We demonstrate that beta-chains were positively selected with similar efficiency regardless of CDR3 loop sequence. Therefore, the establishment and maintenance of public beta-chains in the periphery is predominantly controlled by post-thymic events through modification of the primary, thymus-derived TCR repertoire.

Natural regulation of immunity to minor histocompatibility antigens.

MHC-matched hemopoietic stem cell transplantation is commonly used for the treatment of some forms of leukemia. Conditioning regimens before transplant act to reduce the burden of leukemic cells and the graft-vs-leukemia (GvL) effect can eliminate residual disease. The GvL effect results largely from the recognition of minor histocompatibility Ags by donor T cells on recipient tissues. These Ags are generally widely expressed and also provoke graft-vs-host (GvH) disease. Manipulation of immunity to promote GvL while curtailing GvH would greatly improve clinical outcome. To develop strategies that may achieve this, the parameters which control immunity to minor histocompatibility Ags need to be defined. In this study, we have analyzed responses to the mouse HY minor histocompatibility Ag using hemopoietic cell and skin grafts as surrogate GvL and GvH targets, respectively. We show that natural regulation of CD8 T cell responses to HY operates at multiple levels. First, CD4 T cell help is required for primary CD8 responses directed at hemopoietic cells. However, although CD4 T cells of H2(k) mouse strains recognize HY, they provide ineffective help associated with a proportion of recipients developing tolerance. This was further investigated using TCR-transgenic mice which revealed H2(k)-restricted HY-specific CD4 T cells are highly susceptible to regulation by CD25(+) regulatory T cells which expand in tolerant recipients. A second level of regulation, operating in the context of skin grafts, involves direct inhibition of CD8 T cell responses by CD94/NKG2 engagement of the nonclassical MHC class I molecule Qa1.

Expansion of CD8+ cytotoxic T cells in vitro and in vivo using MHC class I tetramers.

BACKGROUND: The expansion of cytotoxic CD8+ T lymphocytes (CTLs) which recognize peptide epitopes of tumour or viral origin has been a major aim of immunotherapy research for the past decade. Alongside the established dendritic cell-based methods, more recent approaches using recombinant MHC class I peptide complexes have been developed. METHODS: In this study we have explored the potential of a simplified system using soluble streptavidin-linked MHC class I tetramers to expand antigen-specific CTLs in vitro and in vivo. RESULTS: In vitro tetramer-mediated expansion of CD8+ CTLs recognizing HLA-2/Melan-A and HLA-A2/Gag complexes was demonstrated with PBMCs from healthy donors or HIV+ donors, respectively. With 3 weekly rounds of tetramer stimulation, cell numbers expanded 100-fold from 0.05 to 5.0%. The lytic function of HLA-A2/Melan-A-expanded cells was demonstrated in 51Cr release assays by specific killing of T2 cells pulsed with Melan-A, but not other peptides. Similarly, murine CD8+ T cells specific for the HY epitope H2-Db/Uty could be expanded in vitro over a wide range of tetramer concentrations (0.008-1.0 microg/ml), with a single exposure producing substantial T cell expansion from 0.11 to 36%. Intraperitoneal administration of H2-Db/Uty tetramers to primed C57BL/6 mice produced over 5-fold expansion of Db/Uty-specific CTL in vivo. CONCLUSION: The results in this paper demonstrate that simple, multimeric MHC complexes may be of value in expanding CTLs in vitro for adoptive immunotherapy and also potentially in vivo. Further studies will be necessary to clarify the optimum protocols and schedules of administration for T cell expansion using recombinant MHC multimers.

TCR-alpha CDR3 loop audition regulates positive selection.

How positive selection molds the T cell repertoire has been difficult to examine. In this study, we use TCR-beta-transgenic mice in which MHC shapes TCR-alpha use. Differential AV segment use is directly related to the constraints placed on the composition of the CDR3 loops. Where these constraints are low, efficient selection of alphabeta pairs follows. This mode of selection preferentially uses favored AV-AJ rearrangements and promotes diversity. Increased constraint on the alpha CDR3 loops leads to inefficient selection associated with uncommon recombination events and limited diversity. Further, the two modes of selection favor alternate sets of AJ segments. We discuss the relevance of these findings to the imprint of self-MHC restriction and peripheral T cell activation.

Role of immunoproteasomes in cross-presentation.

The evidence that proteasomes are involved in the processing of cross-presented proteins is indirect and based on the in vitro use of proteasome inhibitors. It remains, therefore, unclear whether cross-presentation of MHC class I peptide epitopes can occur entirely within phagolysosomes or whether it requires proteasome degradation. To address this question, we studied in vivo cross-presentation of an immunoproteasome-dependent epitope. First, we demonstrated that generation of the immunodominant HY Uty(246-254) epitope is LMP7 dependent, resulting in the lack of rejection of male LMP7-deficient (LMP7(-/-)) skin grafts by female LMP7(-/-) mice. Second, we ruled out an altered Uty(246-254)-specific T cell repertoire in LMP7(-/-) female mice and demonstrated efficient Uty(246-254) presentation by re-expressing LMP7 in male LMP7(-/-) cells. Finally, we observed that LMP7 expression significantly enhanced cross-priming of Uty(246-254)-specific T cells in vivo. The observations that male skin grafts are not rejected by LMP7(-/-) female mice and that presentation of a proteasome-dependent peptide is not efficiently rescued by alternative cross-presentation pathways provide strong evidence that proteasomes play an important role in cross-priming events.

Identification of the immunodominant HY H2-D(k) epitope and evaluation of the role of direct and indirect antigen presentation in HY responses.

Minor histocompatibility Ags derive from self-proteins and provoke allograft rejection and graft-vs-host disease in MHC-matched donor-recipient combinations. In this study, we define the HYD(k) epitope of the HY minor histocompatibility Ag as the 8mer peptide RRLRKTLL derived from the Smcy gene. Using HY tetramers, the response to this peptide was found to be immunodominant among the four characterized MHC class I-restricted HY epitopes (HYD(k)Smcy (defined here), HYK(k)Smcy, HYD(b)Uty, and HYD(b)Smcy). Indirect presentation stimulated a robust primary HYD(k)Smcy response. Indirect presentation and priming of HY-specific CD8+ T cells is also operative in the presence of a full MHC mismatch. To determine whether the indirect route of Ag presentation is required for HY priming, female parent into F1 (H2bxk) female recipient bone marrow chimeras were immunized with male cells of the other parental haplotype, limiting presentation to the direct pathway. The dominant H2b HY response (HYD(b)Uty) was dependent on indirect presentation. However, the dominant H2k HY response (HYD(k)Smcy) could be stimulated efficiently by the direct pathway. In contrast, secondary expansion of both HYD(k)Smcy and HYD(b)Uty-specific CD8+ T cells was effective only when Ag was presented by the direct route. Transgenic overproduction of Smcy mRNA within the immunizing cells resulted in a corresponding increase in the HYD(k)Smcy, HYD(b)Smcy, and HYK(k)Smcy-specific CD8+ T cell responses when presented via the direct pathway but did not enhance indirect presentation demonstrating the independent regulation of MHC class I-peptide occupancy in the two Ag-processing pathways.

Cognate recognition of the endothelium induces HY-specific CD8+ T-lymphocyte transendothelial migration (diapedesis) in vivo.

The physiologic significance of MHC-peptide complex presentation by endothelial cells (ECs) to trafficking T lymphocytes remains unresolved. On the basis of our observation that cognate recognition of ECs enhanced transendothelial migration of antigen-specific T lymphocytes in vitro, we have proposed that by displaying antigenic peptides from the underlying tissue, ECs promote the recruitment of antigen-specific T cells. In this study, we have tested this hypothesis by comparing the trafficking of HY-specific T lymphocytes into antigenic and nonantigenic tissue using in vivo models of T-cell recruitment. Up-regulated expression of H2 molecules presenting endogenous antigen in the peritoneal mesothelium and vessels led to the local recruitment of HY-specific T cells in male, but not female, mice. Intravital microscopy experiments analyzing EC-HY-specific T-cell interactions in the cremasteric vascular bed revealed that cognate recognition of the endothelium results in enhanced diapedesis of T cells into the tissue, while not affecting rolling and adhesion. Our results are consistent with the hypothesis that, under inflammatory conditions, antigen presentation by the endothelium contributes to the development and specificity of T-cell-mediated inflammation by favoring the selective migration of antigen-specific T cells.

Fc-dependent depletion of activated T cells occurs through CD40L-specific antibody rather than costimulation blockade.

Although the underlying mechanisms are not well understood, it is generally believed that antigen recognition by T cells in the absence of costimulation may alter the immune response, leading to anergy or tolerance. Further support for this concept comes from animal models of autoimmunity and transplantation, where treatments based on costimulation blockade, in particular CD40 ligand (CD40L)-specific antibodies, have been highly effective. We investigated the mechanisms of action of an antibody to CD40L and provide evidence that its effects are dependent on the constant (Fc) region. Prolongation of graft survival is dependent on both complement- and Fc receptor-mediated mechanisms in a major histocompatibility complex (MHC)-mismatched skin transplant model. These data suggest that antibodies to CD40L act through selective depletion of activated T cells, rather than exerting immune modulation by costimulation blockade as currently postulated. This finding opens new avenues for treatment of immune disorders based on selective targeting of activated T cells.

HY peptides modulate transplantation responses to skin allografts.

Injection of female C57BL/6 mice with immature female bone marrow-derived dendritic cells (BMDC) pulsed with a single immunodominant HY(Db) Uty peptide, WMHHNMDLI, induces prolonged survival of syngeneic male skin grafts. In contrast, injection of immature female BMDC pulsed with a single MHC class I-restricted HY(Ab) Dby peptide, NAGFNSNRANSSRSS, causes immunization similar to that following injection of male cells. Tolerance induced by HY(Db) Uty peptide pretreatment is not characterized by clonal deletion: long-term tolerant mice maintain circulating HY(Db) Uty tetramer(+) T cells which expand following exposure to male cells in vivo or in vitro. Tolerance to male skin grafts can be adoptively transferred into neonatal females with splenocytes from tolerant donors. Tolerance is specific-third-party skin grafts are rejected. We propose that tolerance in this model is initiated by cognate interaction of HY(Db) Uty-specific CD8(+) T cells with their ligand, presented either on the injected immature BMDC or on recipient DC. This interaction leads to incomplete activation of the CD8(+) T cells resulting in diminished responsiveness of CD4(+) and CD8(+) T cells specific for HY peptide epitopes subsequently presented on the male graft.