Abstract

Abstract Autoreactive T cells are thought to drive autoimmune diabetes by recognizing beta cell-derived peptide antigens. We previously discovered that hybrid insulin peptides (HIPs) are potent neoantigen peptide ligands for a subset of autoreactive CD4 T cells in both the NOD mouse model and human type 1 diabetes patients. Inducing tolerance to prominent T cell autoantigens through antigen-specific immunotherapy could prevent disease onset or recurrence after islet transplantation without the need for broad immunosuppression. Here we show that tolerogenic nanoparticle (NP) delivery of the 2.5HIP, a dominant CD4 T cell HIP epitope in the NOD mouse, can prolong islet graft survival in transplanted diabetic NOD mice. Tolerance induction to the 2.5HIP not only suppressed 2.5HIP tetramer+ CD4 T cells but also autoreactive CD4 and CD8 T cells specific for different islet antigens. 2.5HIP NP treatment induced a dysfunctional state in graft-infiltrating T cells characterized by increased expression of anergic markers on CD4 T cells and reduced inflammatory cytokine production in 2.5HIP tetramer+ CD4 T cells as well as IGRP (islet specific glucose-6-phosphatase catalytic subunit-related protein) tetramer+ CD8 T cells. In conclusion, we demonstrate that antigen-specific immunotherapy aimed at inducing tolerance to a single CD4 T cell HIP epitope can prolong islet graft survival and suppress autoreactive CD8 T cells in the NOD mouse model of autoimmune diabetes. Supported by grants from NIH (R01 DK122566, R01 DK081166, T32 DK120520) and JDRF (2-SRA-2018-566-S-B)

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