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Literature DB >> 24934598

MBD2 regulates TH17 differentiation and experimental autoimmune encephalomyelitis by controlling the homeostasis of T-bet/Hlx axis.

Jixin Zhong¹, Qilin Yu¹, Ping Yang¹, Xiaoquan Rao², Long He¹, Jing Fang¹, Yaqin Tu¹, Zhijun Zhang¹, Qiaohong Lai¹, Shu Zhang¹, Michal Kuczma², Piatr Kraj², Jun-Fa Xu³, Feili Gong⁴, Jianfeng Zhou⁵, Li Wen⁶, Decio L Eizirik⁷, Jie Du⁸, Wei Wang⁹, Cong-Yi Wang¹⁰.

Abstract

Unlike genetic alterations, epigenetic modifications are reversible and amenable to pharmacological interventions, which make them appealing targets for clinical therapy. However, little is known about epigenetic regulation in experimental autoimmune encephalomyelitis (EAE). Here we demonstrated that methyl-CpG-binding domain protein 2 (MBD2), an epigenetic regulator, controls autoimmunity and EAE through T-bet/Hlx. Tbx21 and Hlx underwent a DNA methylation turnover upon polarizations and a unique methylation pattern was essential for TH17 development. Loss of Mbd2 resulted in a defect for reading the information encoded by this methylation turnover, which disrupted the homeostasis of T-bet/Hlx axis and suppressed TH17 differentiation. DNA demethylation induced similar effect on helper T cell differentiation. Therefore, Mbd2(-/-) mice were completely protected from EAE. Pathogenic splenocytes isolated from wild-type mice challenged with MOG35-55 could adoptively transfer disease to Mbd2(-/-) mice. In addition, Mbd2(-/-) mice reconstituted with unstimulated wild-type splenocytes developed EAE as wild-type mice did. These data would provide novel insights into epigenetic regulation of EAE.

Entities: Disease Gene Species

Keywords: EAE; Epigenetic; MBD2; Methylation; T(H)17; T-bet

Mesh：

Substances：

Year: 2014 PMID： 24934598 DOI： 10.1016/j.jaut.2014.05.006

Source DB: PubMed Journal: J Autoimmun ISSN： 0896-8411 Impact factor: 7.094

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