[No authors listed]
Rodent immune-mediated diabetes model studies have advanced understanding of beta cell-specific T cell responses, and the testing of therapeutic approaches. We have used an inducible diabetes model based on rat insulin promotor (RIP)-driven expression of CD80 (B7-1) on pancreatic beta cells. Using these mice, we have established that immunizing with a single autoantigen can promote progressive islet inflammation and eventually T cell-mediated diabetes. We now describe a potent immunization protocol using peptide-pulsed mature dendritic cells (DCs) to examine peptide epitopes derived from endogenous (preproinsulin) and transgenically expressed beta cell antigens, namely lymphocytic choriomeningitis virus glycoprotein (LCMV-GP). LCMV-GP epitopes efficiently promote beta cell destruction, and the autoantigenic peptide concentration used to load the DCs correlates directly with diabetes onset. The system allowed us to assess cytotoxic T cell (CTL) fine specificity by immunizing with DCs presenting altered peptide ligands (APLs) of the dominant LCMV-GP epitope, gp33. Finally, using an adoptive transfer system, we tested alternative in vitro T cell activation conditions, including APLs and mitogens, for their impact on T cell effector function and diabetes onset. Our studies revealed a marked discrepancy between (inflammatory) effector functions and diabetes progression, thus emphasizing the importance of structural identity between sensitizing and target epitope and the context of initial T cell activation.
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