The Role of Direct Presentation by Donor Dendritic Cells in Rejection of Minor Histocompatibility Antigen-Mismatched Skin and Hematopoietic Cell Grafts

Background. The success of transplantation is hampered by rejection of the graft by alloreactive T cells. Donor dendritic cells (DC) have been shown to be required for direct priming of immune responses to antigens from major histocompatibility complex-mismatched grafts. However, for immune responses to major histocompatibility complex-matched, minor histocompatibility (H) antigen mismatched grafts, the magnitude of the T-cell response to directly presented antigens is reduced, and the indirect pathway is more important. Therefore, we aimed to investigate the requirement for donor DC to directly present antigen from minor H antigen mismatched skin and hematopoietic grafts.Methods. Langerhans cell-or conventional (c) DC-depleted skin or hematopoietic cells from male DC-specific diphtheria toxin receptor mice were grafted onto, or injected into, syngeneic female recipients, and survival of the male tissue was compared with nondepleted tissue. Activation of the alloreactive immune response was tracked by the expansion of T cells specific for male HY-derived epitopes.Results. Our data demonstrate that depletion of donor Langerhans cell, dermal cDC, or both from skin grafts prolongs their survival but does not prevent rejection. Extended survival correlates with delayed expansion of HY peptide-specific CD8(+) T cells. In addition, depletion of donor cDC delays rejection of male hematopoietic cells.Conclusions. Our results demonstrate for the first time that direct presentation of minor H antigens by donor DC is required for efficient rejection of skin and hematopoietic grafts by CD8(+) T cells. But, in the absence of donor DC, indirect presentation of minor antigens is sufficient to mediate the response

Exploiting the Role of Endogenous Lymphoid-Resident Dendritic Cells in the Priming of NKT Cells and CD8+ T Cells to Dendritic Cell-Based Vaccines

Transfer of antigen between antigen-presenting cells (APCs) is potentially a physiologically relevant mechanism to spread antigen to cells with specialized stimulatory functions. Here we show that specific CD8+ T cell responses induced in response to intravenous administration of antigen-loaded bone marrow-derived dendritic cells (BM-DCs), were ablated in mice selectively depleted of endogenous lymphoid-resident langerin+ CD8α+ dendritic cells (DCs), suggesting that the antigen is transferred from the injected cells to resident APCs. In contrast, antigen-specific CD4+ T cells were primed predominantly by the injected BM-DCs, with only very weak contribution of resident APCs. Crucially, resident langerin+ CD8α+ DCs only contributed to the priming of CD8+ T cells in the presence of maturation stimuli such as intravenous injection of TLR ligands, or by loading the BM-DCs with the glycolipid α-galactosylceramide (α-GalCer) to recruit the adjuvant activity of activated invariant natural killer-like T (iNKT) cells. In fact, injection of α-GalCer-loaded CD1d−/− BM-DCs resulted in potent iNKT cell activation, suggesting that this glycolipid antigen can also be transferred to resident CD1d+ APCs. While iNKT cell activation per se was independent of langerin+ CD8α+ DCs, some iNKT cell-mediated activities were reduced, notably release of IL-12p70 and transactivation of NK cells. We conclude that both protein and glycolipid antigens can be exchanged between distinct DC species. These data suggest that the efficacy of DC-based vaccination strategies may be improved by the incorporation of a systemic maturation signal aimed to engage resident APCs in CD8+ T cell priming, and α-GalCer may be particularly well suited to this purpose

Genetic or pharmaceutical blockade of phosphoinositide 3-kinase p110δ prevents chronic rejection of heart allografts.

Chronic rejection is the major cause of long-term heart allograft failure, characterized by tissue infiltration by recipient T cells with indirect allospecificity. Phosphoinositol-3-kinase p110δ is a key mediator of T cell receptor signaling, regulating both T cell activation and migration of primed T cells to non-lymphoid antigen-rich tissue. We investigated the effect of genetic or pharmacologic inactivation of PI3K p110δ on the development of chronic allograft rejection in a murine model in which HY-mismatched male hearts were transplanted into female recipients. We show that suppression of p110δ activity significantly attenuates the development of chronic rejection of heart grafts in the absence of any additional immunosuppressive treatment by impairing the localization of antigen-specific T cells to the grafts, while not inducing specific T cell tolerance. p110δ pharmacologic inactivation is effective when initiated after transplantation. Targeting p110δ activity might be a viable strategy for the treatment of heart chronic rejection in humans

MHC class 1 tetramer analysis of T. cell responses to HY

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Examination of HY response:T cell expansion, immunodominance, and cross-priming revealed by HY tetramer analysis

Abstract We have applied MHC class I tetramers representing the two H2b MHC class I-restricted epitopes of the mouse male-specific minor transplantation Ag, HY, to directly determine the extent of expansion and immunodominance within the CD8+ T cell compartment following exposure to male tissue. Immunization with male bone marrow (BM), spleen, dendritic cells (DCs) and by skin graft led to rapid expansion of both specificities occupying up to &amp;gt;20% of the CD8+ T cell pool. At a high dose, whole BM or spleen were found to be more effective at stimulating the response than BM-derived DCs. In vivo, immunodominance within the responding cell population was only observed following chronic Ag stimulation, whereas epitope immunodominance was established rapidly following in vitro restimulation. Peptide affinity for the restricting MHC molecule was greater for the immunodominant epitope, suggesting that this might be a factor in the emergence of immunodominance. Using tetramers, we were able to directly visualize the cross-primed CD8+ HY response, but we did not find it to be the principal route for MHC class I presentation. Immunization with female spleen or DCs coated with the full complement of defined HY peptides, including the Ab-restricted CD4+ Th cell determinant, failed to induce tetramer-reactive cells.</jats:p

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 HYDb 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 HYAb Dby peptide, NAGFNSNRANSSRSS, causes immunization similar to that following injection of male cells. Tolerance induced by HYDb Uty peptide pretreatment is not characterized by clonal deletion: long-term tolerant mice maintain circulating HYDb 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 HYDb 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

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