Alf Hamann scite author profile

Compelling evidence suggests that the transcription factor Foxp3 acts as a master switch governing the development and function of CD4+ regulatory T cells (Tregs). However, whether transcriptional control of Foxp3 expression itself contributes to the development of a stable Treg lineage has thus far not been investigated. We here identified an evolutionarily conserved region within the foxp3 locus upstream of exon-1 possessing transcriptional activity. Bisulphite sequencing and chromatin immunoprecipitation revealed complete demethylation of CpG motifs as well as histone modifications within the conserved region in ex vivo isolated Foxp3+CD25+CD4+ Tregs, but not in naïve CD25−CD4+ T cells. Partial DNA demethylation is already found within developing Foxp3+ thymocytes; however, Tregs induced by TGF-β in vitro display only incomplete demethylation despite high Foxp3 expression. In contrast to natural Tregs, these TGF-β–induced Foxp3+ Tregs lose both Foxp3 expression and suppressive activity upon restimulation in the absence of TGF-β. Our data suggest that expression of Foxp3 must be stabilized by epigenetic modification to allow the development of a permanent suppressor cell lineage, a finding of significant importance for therapeutic applications involving induction or transfer of Tregs and for the understanding of long-term cell lineage decisions.

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Selective depletion of Foxp3+ regulatory T cells induces a scurfy-like disease

Lahl

et al. 2007

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The scurfy mutant mouse strain suffers from a fatal lymphoproliferative disease leading to early death within 3–4 wk of age. A frame-shift mutation of the forkhead box transcription factor Foxp3 has been identified as the molecular cause of this multiorgan autoimmune disease. Foxp3 is a central control element in the development and function of regulatory T cells (T reg cells), which are necessary for the maintenance of self-tolerance. However, it is unclear whether dysfunction or a lack of T reg cells is etiologically involved in scurfy pathogenesis and its human correlate, the IPEX syndrome. We describe the generation of bacterial artificial chromosome–transgenic mice termed “depletion of regulatory T cell” (DEREG) mice expressing a diphtheria toxin (DT) receptor–enhanced green fluorescent protein fusion protein under the control of the foxp3 gene locus, allowing selective and efficient depletion of Foxp3+ T reg cells by DT injection. Ablation of Foxp3+ T reg cells in newborn DEREG mice led to the development of scurfy-like symptoms with splenomegaly, lymphadenopathy, insulitis, and severe skin inflammation. Thus, these data provide experimental evidence that the absence of Foxp3+ T reg cells is indeed sufficient to induce a scurfy-like phenotype. Furthermore, DEREG mice will allow a more precise definition of the function of Foxp3+ T reg cells in immune reactions in vivo.

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α4β7 integrin mediates lymphocyte binding to the mucosal vascular addressin MAdCAM-1

Berlin

Berg

Briskin

et al. 1993

Cell

1,360

892

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DNA methylation controls Foxp3 gene expression

et al. 2008

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DNA demethylation in the human FOXP3 locus discriminates regulatory T cells from activated FOXP3⁺ conventional T cells

Baron¹,

Floess²,

Wieczorek³

et al. 2007

Eur J Immunol

630

599

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The transcription factor FOXP3 is critical for development and function of regulatory T cells (Treg). Their number and functioning appears to be crucial in the prevention of autoimmunity and allergy, but also to be a negative prognostic marker for various solid tumors. Although expression of the transcription factor FOXP3 currently constitutes the best-known marker for Treg, in humans, transient expression is also observed in activated non-Treg. Extending our recent findings for the murine foxp3 locus, we observed epigenetic modification of several regions in the human FOXP3 locus exclusively occurring in Treg. Importantly, activated conventional CD4 + T cells and TGF-b-treated cells displayed no FOXP3 DNA demethylation despite expression of FOXP3, whereas subsets of Treg stable even upon extended in vitro expansion remained demethylated. To investigate whether a whole set of genes might be epigenetically imprinted in the Treg lineage, we conducted a genome-wide differential methylation hybridization analysis. Several genes were found displaying differential methylation between Treg and conventional Tcells, but none beside FOXP3 turned out to be entirely specific toTreg when tested on a broad panel of cells and tissues. We conclude that FOXP3 DNA demethylation constitutes the most reliable criterion for natural Treg available at present.

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Alf Hamann

Epigenetic Control of the foxp3 Locus in Regulatory T Cells

Selective depletion of Foxp3+ regulatory T cells induces a scurfy-like disease

α4β7 integrin mediates lymphocyte binding to the mucosal vascular addressin MAdCAM-1

DNA methylation controls Foxp3 gene expression

DNA demethylation in the human FOXP3 locus discriminates regulatory T cells from activated FOXP3⁺ conventional T cells

Contact Info

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Resources

About

Alf Hamann

Epigenetic Control of the foxp3 Locus in Regulatory T Cells

Selective depletion of Foxp3+ regulatory T cells induces a scurfy-like disease

α4β7 integrin mediates lymphocyte binding to the mucosal vascular addressin MAdCAM-1

DNA methylation controls Foxp3 gene expression

DNA demethylation in the human FOXP3 locus discriminates regulatory T cells from activated FOXP3+ conventional T cells

Contact Info

Product

Resources

About

DNA demethylation in the human FOXP3 locus discriminates regulatory T cells from activated FOXP3⁺ conventional T cells