Maggie Millrain scite author profile

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.

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Examination of HY Response: T Cell Expansion, Immunodominance, and Cross-Priming Revealed by HY Tetramer Analysis

Millrain

Chandler

Dazzi

et al. 2001

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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 >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.

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

Marelli‐Berg

James

Dangerfield

et al. 2004

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The physiologic significance of MHCpeptide 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 HYspecific 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-HYspecific 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. IntroductionLymphocyte recirculation and the localized recruitment and retention of antigen-specific T cells to sites of inflammation are key events in immune surveillance. While T-lymphocyte recirculation is constitutively regulated and occurs in the absence of inflammation, the development of an immune response depends on the recruitment and retention of specific T cells at antigenic sites, 1 thus minimizing collateral damage caused by non-antigenspecific inflammatory cells. T-cell migration into inflamed tissues involves sustained adhesive interactions with the microvascular endothelium that constitutively expresses major histocompatibility complex (MHC) molecules. Given that endothelial cells (ECs) may display tissue-specific as well as foreign peptides, 1,2 antigen presentation to migrating T cells is likely to occur during the adhesive interactions required for extravasation. The participation of T-cell receptor (TCR)-derived signals in actively promoting T-cell migration has been suggested by the observations that TCR triggering can induce integrin activation 3 and immobilize migrating T cells. 4 In addition, chemokine receptor expression by T cells is susceptible to TCR-mediated modulation. 5 A role for TCR signaling in the control of T-cell motility has also emerged from our recent studies on the functional consequences of antigen presentation by ECs to CD4 ϩ and CD8 ϩ T cells 6,7 in both human and murine systems. In addition, we showed that TCR triggering by the endothelium directly increased T-cell migration by inducing integrin activation. 6 A recent study has provided indirect evidence that insulin-specific clonal CD8 ϩ T cells require cognate recognition of pancreatic microvascular endo...

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Role of Immunoproteasomes in Cross-Presentation

Palmowski

Gileadi

Salio

et al. 2006

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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 Uty246–254 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 Uty246–254-specific T cell repertoire in LMP7−/− female mice and demonstrated efficient Uty246–254 presentation by re-expressing LMP7 in male LMP7−/− cells. Finally, we observed that LMP7 expression significantly enhanced cross-priming of Uty246–254-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.

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Maggie Millrain

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

Examination of HY Response: T Cell Expansion, Immunodominance, and Cross-Priming Revealed by HY Tetramer Analysis

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

Role of Immunoproteasomes in Cross-Presentation

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