Forkhead box P3 (FOXP3)+CD4+CD25+ inducible regulatory T (iT reg) cells play an important role in immune tolerance and homeostasis. In this study, we show that the transforming growth factor-β (TGF-β) induces the expression of the Runt-related transcription factors RUNX1 and RUNX3 in CD4+ T cells. This induction seems to be a prerequisite for the binding of RUNX1 and RUNX3 to three putative RUNX binding sites in the FOXP3 promoter. Inactivation of the gene encoding RUNX cofactor core-binding factor-β (CBFβ) in mice and small interfering RNA (siRNA)-mediated suppression of RUNX1 and RUNX3 in human T cells resulted in reduced expression of Foxp3. The in vivo conversion of naive CD4+ T cells into Foxp3+ iT reg cells was significantly decreased in adoptively transferred CbfbF/F CD4-cre naive T cells into Rag2−/− mice. Both RUNX1 and RUNX3 siRNA silenced human T reg cells and CbfbF/F CD4-cre mouse T reg cells showed diminished suppressive function in vitro. Circulating human CD4+ CD25high CD127− T reg cells significantly expressed higher levels of RUNX3, FOXP3, and TGF-β mRNA compared with CD4+CD25− cells. Furthermore, FOXP3 and RUNX3 were colocalized in human tonsil T reg cells. These data demonstrate Runx transcription factors as a molecular link in TGF-β–induced Foxp3 expression in iT reg cell differentiation and function.
Impaired functional activity of T regulatory cells has been reported in allergic patients and results in an increased susceptibility to autoimmune diseases. The master regulator of T regulatory cell differentiation, the transcription factor FOXP3, is required for both their development and function. Despite its key role, relatively little is known about the molecular mechanisms regulating foxp3 gene expression. In the present study, the effect of Th1 cytokines on human T regulatory cell differentiation was analyzed at epigenetic and gene expression levels and reveals a mechanism by which the STAT1-activating cytokines IL-27 and IFN-␥ amplify TGF--induced FOXP3 expression. This study shows STAT1 binding elements within the proximal part of the human FOXP3 promoter, which we previously hypothesized to function as a key regulatory unit. Direct binding of STAT1 to the FOXP3 promoter following IL-27 stimulation increases its transactivation process and induces permissive histone modifications in this key region of the FOXP3 promoter, suggesting that FOXP3 expression is promoted by IL-27 by two mechanisms. Our data demonstrate a molecular mechanism regulating FOXP3 expression, which is of considerable interest for the development of new drug targets aiming to support anti-inflammatory mechanisms of the immune system.
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