SMARCB1介导的SWI/SNF复合体功能对于增强子调控至关重要。

SMARCB1-mediated SWI/SNF complex function is essential for enhancer regulation.

作者信息

Wang Xiaofeng, Lee Ryan S, Alver Burak H, Haswell Jeffrey R, Wang Su, Mieczkowski Jakub, Drier Yotam, Gillespie Shawn M, Archer Tenley C, Wu Jennifer N, Tzvetkov Evgeni P, Troisi Emma C, Pomeroy Scott L, Biegel Jaclyn A, Tolstorukov Michael Y, Bernstein Bradley E, Park Peter J, Roberts Charles W M

机构信息

Department of Pediatric Oncology, Dana-Farber Cancer Institute, Boston, Massachusetts, USA.

Division of Hematology/Oncology, Boston Children's Hospital, Boston, Massachusetts, USA.

出版信息

Nat Genet. 2017 Feb;49(2):289-295. doi: 10.1038/ng.3746. Epub 2016 Dec 12.

DOI:10.1038/ng.3746

PMID:27941797

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5285474/

Abstract

SMARCB1 (also known as SNF5, INI1, and BAF47), a core subunit of the SWI/SNF (BAF) chromatin-remodeling complex, is inactivated in nearly all pediatric rhabdoid tumors. These aggressive cancers are among the most genomically stable, suggesting an epigenetic mechanism by which SMARCB1 loss drives transformation. Here we show that, despite having indistinguishable mutational landscapes, human rhabdoid tumors exhibit distinct enhancer H3K27ac signatures, which identify remnants of differentiation programs. We show that SMARCB1 is required for the integrity of SWI/SNF complexes and that its loss alters enhancer targeting-markedly impairing SWI/SNF binding to typical enhancers, particularly those required for differentiation, while maintaining SWI/SNF binding at super-enhancers. We show that these retained super-enhancers are essential for rhabdoid tumor survival, including some that are shared by all subtypes, such as SPRY1, and other lineage-specific super-enhancers, such as SOX2 in brain-derived rhabdoid tumors. Taken together, our findings identify a new chromatin-based epigenetic mechanism underlying the tumor-suppressive activity of SMARCB1.

摘要

SMARCB1（也称为SNF5、INI1和BAF47）是SWI/SNF（BAF）染色质重塑复合物的一个核心亚基，在几乎所有儿童横纹肌样肿瘤中均失活。这些侵袭性癌症是基因组最稳定的癌症之一，提示存在一种表观遗传机制，通过该机制SMARCB1缺失驱动肿瘤转化。在此我们表明，尽管人类横纹肌样肿瘤具有难以区分的突变图谱，但它们表现出不同的增强子H3K27ac特征，这些特征可识别分化程序的残余。我们表明，SMARCB1是SWI/SNF复合物完整性所必需的，其缺失会改变增强子靶向——显著损害SWI/SNF与典型增强子（特别是那些分化所需的增强子）的结合，同时维持SWI/SNF在超级增强子上的结合。我们表明，这些保留的超级增强子对横纹肌样肿瘤的存活至关重要，包括所有亚型共有的一些超级增强子，如SPRY1，以及其他谱系特异性超级增强子，如脑源性横纹肌样肿瘤中的SOX2。综上所述，我们的研究结果确定了一种基于染色质的新表观遗传机制，该机制是SMARCB1肿瘤抑制活性的基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/23d7/5285474/91bcb655de5f/nihms831183f1.jpg

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SMARCB1介导的SWI/SNF复合体功能对于增强子调控至关重要。

SMARCB1-mediated SWI/SNF complex function is essential for enhancer regulation.

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