Chemomechanical regulation of EZH2 localization controls epithelial-mesenchymal transition.

IF 3.3 3区 生物学 Q3 CELL BIOLOGY
Jessica L Sacco, Zachary T Vaneman, Ava Self, Elix Sumner, Stella Kibinda, Chinmay S Sankhe, Esther W Gomez
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引用次数: 0

Abstract

The methyltransferase enhancer of zeste homolog 2 (EZH2) regulates gene expression and aberrant EZH2 expression and signaling can drive fibrosis and cancer. However, it is not clear how chemical and mechanical signals are integrated to regulate EZH2 and gene expression. We show that culture of cells on stiff matrices in concert with transforming growth factor (TGF)-β1 promotes nuclear localization of EZH2 and an increase in the levels of the corresponding histone modification, H3K27me3, thereby regulating gene expression. EZH2 activity and expression are required for TGFβ1- and stiffness-induced increases in H3K27me3 levels as well as for morphological and gene expression changes associated with epithelial-mesenchymal transition (EMT). Inhibition of Rho associated kinase (ROCK) or myosin II signaling attenuates TGFβ1-induced nuclear localization of EZH2 and decreases H3K27me3 levels in cells cultured on stiff substrata, suggesting that cellular contractility, in concert with a major cancer signaling regulator TGFβ1, modulates EZH2 subcellular localization. These findings provide a contractility-dependent mechanism by which matrix stiffness and TGFβ1 together mediate EZH2 signaling to promote EMT.

EZH2定位的化学机械调控控制着上皮-间质转化。
泽斯特同源增强子 2(EZH2)甲基转移酶调控基因表达,EZH2 的异常表达和信号传导可导致纤维化和癌症。然而,目前还不清楚化学和机械信号是如何综合调控 EZH2 和基因表达的。我们的研究表明,将细胞培养在坚硬的基质上并与转化生长因子(TGF)-β1协同作用,可促进EZH2的核定位和相应组蛋白修饰H3K27me3水平的增加,从而调控基因表达。EZH2的活性和表达是TGFβ1和硬度诱导的H3K27me3水平增加以及与上皮-间质转化(EMT)相关的形态和基因表达变化所必需的。抑制Rho相关激酶(ROCK)或肌球蛋白II信号传导可减轻TGFβ1诱导的EZH2核定位,并降低在僵硬基质上培养的细胞的H3K27me3水平,这表明细胞收缩性与主要癌症信号调节因子TGFβ1共同调节EZH2的亚细胞定位。这些发现提供了一种依赖于收缩力的机制,即基质硬度和 TGFβ1 共同介导 EZH2 信号以促进 EMT。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of cell science
Journal of cell science 生物-细胞生物学
CiteScore
7.30
自引率
2.50%
发文量
393
审稿时长
1.4 months
期刊介绍: Journal of Cell Science publishes cutting-edge science, encompassing all aspects of cell biology.
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