CD4+ T Cell Tolerance to Parenchymal Self-Antigens Requires Presentation by Bone Marrow–derived Antigen-presenting Cells |
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| Authors: | Adam J. Adler David W. Marsh Gregory S. Yochum James L. Guzzo Ankesh Nigam William G. Nelson Drew M. Pardoll |
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| Affiliation: | From the *Department of Oncology and the ‡Department of Surgery, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205 |
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| Abstract: | T cell tolerance to parenchymal self-antigens is thought to be induced by encounter of the T cell with its cognate peptide–major histocompatibility complex (MHC) ligand expressed on the parenchymal cell, which lacks appropriate costimulatory function. We have used a model system in which naive T cell receptor (TCR) transgenic hemagglutinin (HA)-specific CD4+ T cells are adoptively transferred into mice expressing HA as a self-antigen on parenchymal cells. After transfer, HA-specific T cells develop a phenotype indicative of TCR engagement and are rendered functionally tolerant. However, T cell tolerance is not induced by peptide–MHC complexes expressed on parenchymal cells. Rather, tolerance induction requires that HA is presented by bone marrow (BM)–derived cells. These results indicate that tolerance induction to parenchymal self-antigens requires transfer to a BM-derived antigen-presenting cell that presents it to T cells in a tolerogenic fashion. |
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| Keywords: | peripheral tolerance CD4+ T cells antigen-presenting cells adoptive T cell transfer transgenic mice |
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