祖细胞
生物
免疫学
祖细胞
点头
细胞生物学
脱甲基酶
自身免疫性疾病
自身免疫
效应器
点头老鼠
细胞分化
转录因子
癌症研究
车站3
组蛋白
调节器
免疫系统
T细胞
干细胞
表观遗传学
胚胎干细胞
细胞毒性T细胞
RAR相关孤儿受体γ
转分化
作者
Ho-Chung Chen,Madison F. Bang,Hsing‐Hui Wang,Karl B. Shpargel,Lisa A. Kohn,David Sailer,S.C. Zhang,Ethan C. McCarthy,Maryamsadat Seyedsadr,Satchel Stevens,C. Pham,Zikang Zhou,Xihui Yin,Nicole M. Wilkinson,Esther Peluso,Christian Bustillos,Jessica Ortega,Lixin Yang,Ashlyn A. Buzzelli,Reina C. Capati
摘要
Type 1 diabetes mellitus (T1D) is a chronic disease caused by an unremitting autoimmune attack on pancreatic β cells. This autoimmune chronicity is mediated by stem-like progenitor CD8+ T cells that continually repopulate the pool of β cell-specific cytolytic effectors. Factors governing the conversion of progenitors to effectors, however, remain unclear. T1D has been linked to a chromosomal region (Xp13-p11) that contains the epigenetic regulator UTX, which suggests a key role for UTX in T1D pathogenesis. Here, we show that T cell-specific UTX deletion in NOD mice protects against T1D development. In T cells of NOD mice and patients with T1D, UTX ablation resulted in the accumulation of CD8+ progenitor cells with a concomitant decrease of effector cells, suggesting a key role for UTX in poising progenitors for transition to effectors. Mechanistically, UTX's role in T1D was independent of its inherent histone demethylase activity but instead relied on binding with transcription factors (TCF1 and STAT3) to coregulate genes important in the maintenance and differentiation of progenitor CD8+ T cells. Together, these findings identify a critical role for UTX in T1D and the UTX:TCF1:STAT3 complex as a therapeutic target for terminating the long-lived autoimmune response.
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