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PLZF Acetylation Levels Regulate NKT Cell Differentiation

自然杀伤性T细胞 生物 表观遗传学 细胞生物学 DNA甲基化 细胞分化 转录因子 T细胞 免疫学 遗传学 基因表达 基因 免疫系统
作者
Jihène Klibi,Claudine Joseph,Marc Delord,Aurélie Teissandier,Bruno Lucas,Christine Chomienne,Antoine Toubert,Déborah Bourc’his,Fabien Guidez,Kamel Benlagha
出处
期刊:Journal of Immunology [American Association of Immunologists]
卷期号:207 (3): 809-823 被引量:4
标识
DOI:10.4049/jimmunol.2001444
摘要

Abstract The transcription factor promyelocytic leukemia zinc finger (PLZF) is encoded by the BTB domain–containing 16 (Zbtb16) gene. Its repressor function regulates specific transcriptional programs. During the development of invariant NKT cells, PLZF is expressed and directs their effector program, but the detailed mechanisms underlying PLZF regulation of multistage NKT cell developmental program are not well understood. This study investigated the role of acetylation-induced PLZF activation on NKT cell development by analyzing mice expressing a mutant form of PLZF mimicking constitutive acetylation (PLZFON) mice. NKT populations in PLZFON mice were reduced in proportion and numbers of cells, and the cells present were blocked at the transition from developmental stage 1 to stage 2. NKT cell subset differentiation was also altered, with T-bet+ NKT1 and RORγt+ NKT17 subsets dramatically reduced and the emergence of a T-bet−RORγt− NKT cell subset with features of cells in early developmental stages rather than mature NKT2 cells. Preliminary analysis of DNA methylation patterns suggested that activated PLZF acts on the DNA methylation signature to regulate NKT cells’ entry into the early stages of development while repressing maturation. In wild-type NKT cells, deacetylation of PLZF is possible, allowing subsequent NKT cell differentiation. Interestingly, development of other innate lymphoid and myeloid cells that are dependent on PLZF for their generation is not altered in PLZFON mice, highlighting lineage-specific regulation. Overall, we propose that specific epigenetic control of PLZF through acetylation levels is required to regulate normal NKT cell differentiation.
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