Mbd2 促进 foxp3 去甲基化和 T 调节细胞功能。

Mbd2 promotes foxp3 demethylation and T-regulatory-cell function.

机构信息

Division of Transplantation Immunology, Department of Pathology and Laboratory Medicine & Biesecker Center for Pediatric Liver Diseases.

出版信息

Mol Cell Biol. 2013 Oct;33(20):4106-15. doi: 10.1128/MCB.00144-13. Epub 2013 Aug 26.

DOI:10.1128/MCB.00144-13

PMID:23979593

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3811679/

Abstract

Use of Foxp3-positive (Foxp3(+)) T-regulatory (Treg) cells as potential cellular therapy in patients with autoimmunity, or post-stem cell or -organ transplantation, requires a sound understanding of the transcriptional regulation of Foxp3. Conserved CpG dinucleotides in the Treg-specific demethylation region (TSDR) upstream of Foxp3 are demethylated only in stable, thymus-derived Foxp3(+) Treg cells. Since methyl-binding domain (Mbd) proteins recruit histone-modifying and chromatin-remodeling complexes to methylated sites, we tested whether targeting of Mbd2 might promote demethylation of Foxp3 and thereby promote Treg numbers or function. Surprisingly, while chromatin immunoprecipitation (ChIP) analysis showed Mbd2 binding to the Foxp3-associated TSDR site in Treg cells, Mbd2 targeting by homologous recombination, or small interfering RNA (siRNA), decreased Treg numbers and impaired Treg-suppressive function in vitro and in vivo. Moreover, we found complete TSDR demethylation in wild-type (WT) Treg cells but >75% methylation in Mbd2(-/-) Treg cells, whereas reintroduction of Mbd2 into Mbd2-null Treg cells restored TSDR demethylation, Foxp3 gene expression, and Treg-suppressive function. Lastly, thymic Treg cells from Mbd2(-/-) mice had normal TSDR demethylation, but compared to WT Treg cells, peripheral Mbd2(-/-) Treg cells had a marked impairment of binding of Tet2, the DNA demethylase enzyme, at the TSDR site. These data show that Mbd2 has a key role in promoting TSDR demethylation, Foxp3 expression, and Treg-suppressive function.

摘要

使用 Foxp3 阳性（Foxp3(+））调节性 T 细胞（Treg）作为自身免疫或干细胞或器官移植后的潜在细胞治疗方法，需要对 Foxp3 的转录调控有一个深入的了解。Foxp3 上游的 Treg 特异性去甲基化区域（TSDR）中的保守 CpG 二核苷酸仅在稳定的、来自胸腺的 Foxp3(+)Treg 细胞中被去甲基化。由于甲基结合域（Mbd）蛋白将组蛋白修饰和染色质重塑复合物募集到甲基化位点，我们测试了靶向 Mbd2 是否可以促进 Foxp3 的去甲基化，从而促进 Treg 数量或功能。令人惊讶的是，虽然染色质免疫沉淀（ChIP）分析显示 Mbd2 与 Treg 细胞中 Foxp3 相关的 TSDR 位点结合，但同源重组或小干扰 RNA（siRNA）靶向 Mbd2 会减少 Treg 数量并损害 Treg 在体外和体内的抑制功能。此外，我们发现野生型（WT）Treg 细胞中的 TSDR 完全去甲基化，但 Mbd2(-/-）Treg 细胞中的>75%甲基化，而将 Mbd2 重新引入 Mbd2 缺失的 Treg 细胞中则恢复了 TSDR 去甲基化、Foxp3 基因表达和 Treg 抑制功能。最后，来自 Mbd2(-/-）小鼠的胸腺 Treg 细胞具有正常的 TSDR 去甲基化，但与 WT Treg 细胞相比，外周 Mbd2(-/-）Treg 细胞在 TSDR 位点上 Tet2（一种 DNA 去甲基酶）的结合明显受损。这些数据表明 Mbd2 在促进 TSDR 去甲基化、Foxp3 表达和 Treg 抑制功能方面具有关键作用。

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