Register shifting of an insulin peptide–MHC complex allows diabetogenic T cells to escape thymic deletion

JF Mohan, SJ Petzold, ER Unanue - Journal of Experimental Medicine, 2011 - rupress.org
JF Mohan, SJ Petzold, ER Unanue
Journal of Experimental Medicine, 2011rupress.org
In nonobese diabetic (NOD) mice, two sets of autoreactive CD4+ T cells recognize the B: 9–
23 segment of the insulin B chain. One set, type A, recognizes insulin presented by antigen-
presenting cells (APCs). These T cells are highly deleted in the thymus. The second set, type
B, does not recognize insulin protein but reacts with soluble B chain peptide. This set is not
deleted in the thymus but is activated in the islets of Langerhans. In this study, we examine
the specificity of these two types of T cells. The protein-reactive set recognizes the stretch of …
In nonobese diabetic (NOD) mice, two sets of autoreactive CD4+ T cells recognize the B:9–23 segment of the insulin B chain. One set, type A, recognizes insulin presented by antigen-presenting cells (APCs). These T cells are highly deleted in the thymus. The second set, type B, does not recognize insulin protein but reacts with soluble B chain peptide. This set is not deleted in the thymus but is activated in the islets of Langerhans. In this study, we examine the specificity of these two types of T cells. The protein-reactive set recognizes the stretch of residues 13–21 of the insulin B chain. The set reactive to peptide only recognizes the stretch from residues 12–20. A single amino acid shift of the B chain peptide bound to I-Ag7 determines whether T cells recognize peptides generated by the processing of insulin, and consequently their escape from thymic purging. Biochemical experiments indicate that peptides bound in the 13–21 register interact more favorably with I-Ag7 than peptides that bind in the 12–20 register. Thus, self-reactive T cells can become pathogenic in the target organ where high concentrations of antigen and/or differences in intracellular processing present peptides in registers distinct from those found in the thymus.
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