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端粒表观遗传反应由 Gadd45a 介导,调节干细胞衰老和寿命。

Telomeric epigenetic response mediated by Gadd45a regulates stem cell aging and lifespan.

机构信息

Key Laboratory of Regenerative Medicine of Ministry of Education, Institute of Aging and Regenerative Medicine, Jinan University, Guangzhou, China

Institute of Aging Research, School of Medicine, Hangzhou Normal University, Hangzhou, China.

出版信息

EMBO Rep. 2018 Oct;19(10). doi: 10.15252/embr.201745494. Epub 2018 Aug 20.

DOI:10.15252/embr.201745494
PMID:30126922
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6172461/
Abstract

Progressive attrition of telomeres triggers DNA damage response (DDR) and limits the regenerative capacity of adult stem cells during mammalian aging. Intriguingly, telomere integrity is not only determined by telomere length but also by the epigenetic status of telomeric/sub-telomeric regions. However, the functional interplay between DDR induced by telomere shortening and epigenetic modifications in aging remains unclear. Here, we show that deletion of Gadd45a improves the maintenance and function of intestinal stem cells (ISCs) and prolongs lifespan of telomerase-deficient mice (G3). Mechanistically, Gadd45a facilitates the generation of a permissive chromatin state for DDR signaling by inducing base excision repair-dependent demethylation of CpG islands specifically at sub-telomeric regions of short telomeres. Deletion of Gadd45a promotes chromatin compaction in sub-telomeric regions and attenuates DDR initiation at short telomeres of G3 ISCs. Treatment with a small molecule inhibitor of base excision repair reduces DDR and improves the maintenance and function of G3 ISCs. Taken together, our study proposes a therapeutic approach to enhance stem cell function and prolong lifespan by targeting epigenetic modifiers.

摘要

端粒的渐进性损耗会触发 DNA 损伤反应(DDR),并限制哺乳动物衰老过程中成年干细胞的再生能力。有趣的是,端粒的完整性不仅取决于端粒的长度,还取决于端粒/亚端粒区域的表观遗传状态。然而,端粒缩短诱导的 DDR 与衰老过程中表观遗传修饰之间的功能相互作用尚不清楚。在这里,我们表明 Gadd45a 的缺失可改善肠干细胞(ISCs)的维持和功能,并延长端粒酶缺陷型小鼠(G3)的寿命。从机制上讲,Gadd45a 通过诱导碱基切除修复依赖性的 CpG 岛去甲基化,特别是在短端粒的亚端粒区域,促进 DDR 信号的许可染色质状态的产生。Gadd45a 的缺失促进了亚端粒区域的染色质紧缩,并减弱了 G3 ISC 短端粒处 DDR 的起始。碱基切除修复的小分子抑制剂的治疗可减少 DDR,并改善 G3 ISC 的维持和功能。总之,我们的研究提出了一种通过靶向表观遗传修饰物来增强干细胞功能和延长寿命的治疗方法。

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