Glutamic Acid Decarboxylase-Derived Epitopes with Specific Domains Expand CD4 CD25 Regulatory T CellsReport as inadecuate

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CD4+CD25+ regulatory T cell Treg-based immunotherapy is considered a promising regimen for controlling the progression of autoimmune diabetes. In this study, we tested the hypothesis that the therapeutic effects of Tregs in response to the antigenic epitope stimulation depend on the structural properties of the epitopes used.

Methodology-Principal Findings

Splenic lymphocytes from nonobese diabetic NOD mice were stimulated with different glutamic acid decarboxylase GAD-derived epitopes for 7–10 days and the frequency and function of Tregs was analyzed. We found that, although all expanded Tregs showed suppressive functions in vitro, only p524 GAD524–538-expanded CD4+CD25+ T cells inhibited diabetes development in the co-transfer models, while p509 GAD509–528- or p530 GAD530–543-expanded CD4+CD25+ T cells had no such effects. Using computer-guided molecular modeling and docking methods, the differences in structural characteristics of these epitopes and the interaction mode including binding energy and identified domains in the epitopes between the above-mentioned epitopes and MHC class II I-Ag7 were analyzed. The theoretical results showed that the epitope p524, which induced protective Tregs, possessed negative surface-electrostatic potential and bound two chains of MHC class II I-Ag7, while the epitopes p509 and p530 which had no such ability exhibited positive surface-electrostatic potential and bound one chain of I-Ag7. Furthermore, p524 bound to I-Ag7 more stably than p509 and p530. Of importance, we hypothesized and subsequently confirmed experimentally that the epitope GAD570–585, p570, which displayed similar characteristics to p524, was a protective epitope by showing that p570-expanded CD4+CD25+ T cells suppressed the onset of diabetes in NOD mice.


These data suggest that molecular modeling-based structural analysis of epitopes may be an instrumental tool for prediction of protective epitopes to expand functional Tregs.

Author: Guojiang Chen , Gencheng Han , Jiannan Feng , Jianan Wang, Renxi Wang, Ruonan Xu, Beifen Shen, Jiahua Qian, Yan Li



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