Abstract
Regulatory T cells (Tregs) obtain immunosuppressive capacity by the upregulation of forkhead box protein 3 (Foxp3), and persistent expression of this transcription factor is required to maintain their immune regulatory function and ensure immune homeostasis. Stable Foxp3 expression is achieved through epigenetic modification of the Treg-specific demethylated region (TSDR), an evolutionarily conserved non-coding element within the Foxp3 gene locus. Here, we present molecular data suggesting that TSDR enhancer activity is restricted to T cells and cannot be induced in other immune cells such as macrophages or B cells. Since NF-κB signaling has been reported to be instrumental to induce Foxp3 expression during Treg development, we analyzed how NF-κB factors are involved in the molecular regulation of the TSDR. Unexpectedly, we neither observed transcriptional activity of a previously postulated NF-κB binding site within the TSDR nor did the entire TSDR show any transcriptional responsiveness to NF-κB activation at all. Finally, the NF-κB subunit c-Rel revealed to be dispensable for epigenetic imprinting of sustained Foxp3 expression by TSDR demethylation. In conclusion, we show that NF-κB signaling is not substantially involved in TSDR-mediated stabilization of Foxp3 expression in Tregs.
Highlights
Regulatory T cells (Tregs) are cellular mediators of immunological tolerance as they possess the capacity to suppress various types of immune responses against self and non-self antigens [1]
Stable forkhead box protein 3 (Foxp3) expression and epigenetic modifications of the Treg-specific demethylated region (TSDR) were observed in c-Rel-deficient Tregs. These data suggest that NF-kB factors are largely dispensable for TSDR-mediated stabilization of Foxp3 expression and epigenetic remodeling of the Foxp3 locus
TSDR Enhancer Activity Requires T cell-specific Signals Compelling evidence suggests that the TSDR acts as a transcriptional stabilizer of Foxp3 expression in Tregs [6]
Summary
Regulatory T cells (Tregs) are cellular mediators of immunological tolerance as they possess the capacity to suppress various types of immune responses against self and non-self antigens [1]. The transcription factor forkhead box protein 3 (Foxp3) is expressed in Tregs and is essential for the development of their immunosuppressive properties [2,3]. Stable Foxp expression is accompanied by epigenetic modulation of the Treg-specific demethylated region (TSDR), a CpG-rich, non-coding sequence within the first intron of the Foxp gene locus [6]. Transcriptional enhancer activity of the TSDR in an in vitro reporter assay is essentially determined by its methylation status [10]. Elucidating the underlying molecular mechanisms may open up new approaches to modulate stability of Foxp expression, which is of outmost importance for the therapeutic application of Tregs in clinical settings
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