Cutting Edge: Thymic Positive Selection and Peripheral Activation of Islet Antigen-Specific T Cells: Separation of Two Diabetogenic Steps by an I-Ag7 Class II MHC β-Chain Mutant

Abstract

AbstractThe diabetes-susceptible class II MHC genes (in human and mouse) share unique nonaspartic acid residues at position 57 of the class II β-chain. Transgenic expression of a mutant I-Ag7, substituting histidine and serine at position 56 and 57 of β-chain with proline and aspartic acid (I-Ag7PD), respectively, inhibits diabetes development in the nonobese diabetic mouse model. Here, we demonstrate that immature thymocytes expressing a diabetogenic islet Ag-specific transgenic TCR are positively selected by I-Ag7PD class II MHC to give rise to mature CD4+ T cells. However, splenic APCs expressing the same I-Ag7PD fail to present pancreatic islet Ag to mature T cells bearing this diabetogenic TCR. These results indicate that nonaspartic acid residues at position 57 of class II MHC β-chain is important for diabetogenic CD4+ T cell activation in the periphery but is not essential for the formation of a diabetogenic T cell repertoire in the thymus.