Abstract
Abstract Regulatory T-cells (Treg) play a pivotal role in suppressing self-reactive effector T-cells (Teff) and help maintain the critical balance between self-tolerance and autoimmunity. Restoration of homeostatic balance between Teff/Treg cells has been shown to ameliorate many autoimmune diseases including type-1 diabetes. Recently, we have reported a novel strategy for the selective expansion of Tregs using OX40L (a TNF-superfamily ligand) and Jagged (JAG)-1 (a Notch family ligand) treatment independent of canonical TCR-signaling, but mediated through specific interaction between OX40L-OX40 and JAG1-Notch3 preferentially expressed on Tregs. OX40L-JAG1 treatment of NOD mice with soluble OX40L and JAG1 increased proliferation of peripheral Tregs and delayed the onset of diabetes. In the present study, we show that OX40L treatment significantly increased Tregs in the thymus by inducing proliferation of thymic Tregs independent of TCR-stimulation upon addition of exogenous IL-2. OX40−/− mice had reduced numbers of thymic Tregs compared to wild type (WT) controls. The reduction in thymic Treg numbers likely due to impaired ability of proliferation in response to OX40L. However, we did not observe any change in IL-2 sensitivity of thymocytes in OX40−/− mice. Mechanistic studies suggested that OX40L-IL-2 induced thymic Treg proliferation was mediated through NF-kB and AKT-mTOR-S6 signaling. Further, phenotypic characterization studies revealed a significant decrease in TIGIT+Treg population, often associated with Treg activation, in both thymus and spleen of OX40−/− mice compared to WT controls. Taken together, these results suggest a critical role for OX40L/OX40 signaling in the development as well as function of Tregs.
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