The role of pTα/pre-TCR in susceptibility to autoimmunity (P1464)

Abstract

Abstract Autoimmune diseases result from a breakdown in self-tolerance, with a major contribution of pathogenic self-reactive T cells. Individuals with a particular autoimmune disease are often at risk of developing additional autoimmunity directed towards other target tissues. These observations suggest that there might be a mechanism leading to a general defect in self-tolerance, resulting in increased susceptibility to autoimmune disease. Tolerance towards self is initially established in the thymus during the process of thymic selection. Developing thymocytes are first immature CD4 and CD8 double negative thymocytes. Cells with a productive TCRβ gene rearrangement will express a pre-TCR/CD3 complex on the cell surface by combining a TCRβ chain with the pTα chain. Signaling through the pre-TCR, β-selection, plays a crucial role in the generation αβT cells, by enabling further maturation to the CD4 and CD8 double positive stage. The crucial role of pTα at β-selection together with the genetic localization of the ptcra gene and the fact that variations in pTα will affect all developing T cells, suggests that pTα could be a common factor leading to a general defect in self-tolerance. We have discovered differences in the isoform expression pattern and amino acid sequence of pTa between NOD and B6 mice. These findings are consistent with the hypothesis that alterations in the pre-TCR might affect selection, giving a modified TCR repertoire and increased susceptibility to autoimmunity.