295-OR: Mechanisms of Antigen-Specific Immunotherapy following Tolerance Induction to a CD4 Hybrid Insulin Peptide Epitope and the Impact on CD8 T Cell Dysfunction

Abstract

Type 1 diabetes is the culmination of T cell mediated autoimmunity resulting in the destruction of insulin-producing beta cells. Islet-derived hybrid insulin peptides (HIPs), recognized by autoreactive CD4 T cells, are likely dominant T cell epitopes in the NOD mouse model of autoimmune diabetes. The 2.5HIP is formed by the fusion of a fragment of insulin C-peptide with a natural cleavage product of chromogranin A, generating a neoepitope. When the 2.5HIP was delivered as an immunotherapy on tolerance inducing PLG-nanoparticles, islet grafts functioned longer in transplanted, diabetic NOD mice. Tolerance induction to this single neoepitope induced dysfunctional cytokine production in autoreactive CD4 and CD8 T cells specific for other known islet antigens. Here we used both prediabetic NOD mice and diabetic transplant recipients to examine mechanisms of peripheral tolerance induction to a HIP. Using the Tiger IL10-GFP reporter mouse, we observed a substantial increase in the proportion of (CD25+) Treg and (CD25-) Tr1 2.5HIP tetramer+ CD4 T cells that expressed IL10 in the islets, spleen, and draining lymph node of 2.5HIP nanoparticle treated mice. Autoreactive, IGRP tetramer+ CD8 T cells displayed a trafficking defect and accumulated in secondary lymphoid tissue with a concomitant reduction within islets. The proportion of cytolytic, CX3CR1+ IGRP tetramer+ CD8 T cells that infiltrated islets was also reduced. IL10 generated by both Treg and Tr1 2.5HIP tet+ T cells may directly suppress IGRP tetramer+ CD8 T cells or suppress an intermediate cell type such as a dendritic cell, causing CD8 T cell dysfunction. Examining how antigen-specific immunotherapies suppress multiple autoreactive T cells specificities may help inform future therapies without the need for immunosuppression. Disclosure J.E.Dilisio: None. R.L.Baker: None. K.M.Haskins: None. Funding National Institutes of Health (5T32DK120520-03, 2R01DK081166-11); JDRF (2-SRA-2020-907-S-B)