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SMARCA2中的杂合突变通过SMARCA4的全局重新定位来重新编程增强子景观。

Heterozygous Mutations in SMARCA2 Reprogram the Enhancer Landscape by Global Retargeting of SMARCA4.

作者信息

Gao Fangjian, Elliott Nicholas J, Ho Josephine, Sharp Alexzander, Shokhirev Maxim N, Hargreaves Diana C

机构信息

Molecular and Cellular Biology Laboratory, Salk Institute for Biological Studies, La Jolla, CA 92037, USA.

Biological Sciences Graduate Program, University of California, San Diego, La Jolla, CA 92037, USA.

出版信息

Mol Cell. 2019 Sep 5;75(5):891-904.e7. doi: 10.1016/j.molcel.2019.06.024. Epub 2019 Jul 30.

DOI:10.1016/j.molcel.2019.06.024
PMID:31375262
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7291823/
Abstract

Mammalian SWI/SNF complexes are multi-subunit chromatin remodeling complexes associated with an ATPase (either SMARCA4 or SMARCA2). Heterozygous mutations in the SMARCA2 ATPase cause Nicolaides-Baraitser syndrome (NCBRS), an intellectual disability syndrome associated with delayed speech onset. We engineered human embryonic stem cells (hESCs) to carry NCBRS-associated heterozygous SMARCA2 K755R or R1159Q mutations. While SMARCA2 mutant hESCs were phenotypically normal, differentiation to neural progenitors cells (NPCs) was severely impaired. We find that SMARCA2 mutations cause enhancer reorganization with loss of SOX3-dependent neural enhancers and prominent emergence of astrocyte-specific de novo enhancers. Changes in chromatin accessibility at enhancers were associated with an increase in SMARCA2 binding and retargeting of SMARCA4. We show that the AP-1 family member FRA2 is aberrantly overexpressed in SMARCA2 mutant NPCs, where it functions as a pioneer factor at de novo enhancers. Together, our results demonstrate that SMARCA2 mutations cause impaired differentiation through enhancer reprogramming via inappropriate targeting of SMARCA4.

摘要

哺乳动物的SWI/SNF复合物是与一种ATP酶(SMARCA4或SMARCA2)相关的多亚基染色质重塑复合物。SMARCA2 ATP酶的杂合突变会导致尼古拉德斯-巴拉伊瑟综合征(NCBRS),这是一种与语言发育迟缓相关的智力障碍综合征。我们对人类胚胎干细胞(hESC)进行基因改造,使其携带与NCBRS相关的杂合SMARCA2 K755R或R1159Q突变。虽然携带SMARCA2突变的hESC在表型上是正常的,但向神经祖细胞(NPC)的分化却严重受损。我们发现,SMARCA2突变会导致增强子重组,SOX3依赖的神经增强子丢失,以及星形胶质细胞特异性新生增强子显著出现。增强子处染色质可及性的变化与SMARCA2结合增加和SMARCA4重新靶向有关。我们表明,AP-1家族成员FRA2在携带SMARCA2突变的NPC中异常过度表达,在那里它作为新生增强子的先驱因子发挥作用。总之,我们的结果表明,SMARCA2突变通过对SMARCA4的不当靶向导致增强子重编程,从而造成分化受损。

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