Antigen-specific regulatory T cells (Tregs) possess the potential to reduce excess immune responses in autoimmune diseases, allergy, rejection after organ transplantation and graft-versus-host disease (GVHD) following hematopoietic stem cell transplantation. Although in vitro-expanded antigen-specific induced Tregs (iTregs) have been considered to be a promising therapeutic agent against such excessive immune reactions, the instability of iTregs after transfer is a fundamental problem in their clinical application. In this study, we searched for the optimal way to generate stable iTregs for the prevention of the murine GVHD model, in which conventional iTregs are reported to be inefficient. Allo-antigen-specific iTregs were generated by co-culturing naive T cells with allogenic dendritic cells in the presence of TGF-β and retinoic acid. By examining various agents and genes, we found that vitamin C stabilized Foxp3 expression most effectively in adoptively transferred iTregs under a GVHD environment. Vitamin C treatment caused active DNA demethylation specifically on the conserved non-coding sequence 2 (CNS2) enhancer of the Foxp3 gene locus in allo-antigen-specific iTregs and reduced iTreg conversion into pathogenic exFoxp3 cells. Vitamin C-treated iTregs suppressed GVHD symptoms more efficiently than untreated iTregs. Vitamin C also facilitated induction of a FOXP3high iTreg population from human naive T cells, which was very stable even in the presence of IL-6 in vitro. The treatment of vitamin C for iTreg promises innovative clinical application for adoptive Treg immunotherapy.
Keywords: DNA methylation; Foxp3; GVHD; immune tolerance; regulatory T cell.
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