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2
Polycomb repressive complex 2 in the driver's seat of childhood and young adult brain tumours.多梳抑制复合物 2 在儿童和青少年脑肿瘤中的驱动作用。
Trends Cell Biol. 2021 Oct;31(10):814-828. doi: 10.1016/j.tcb.2021.05.006. Epub 2021 Jun 3.
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A Workflow for Ultra-rapid Analysis of Histone Post-translational Modifications with Direct-injection Mass Spectrometry.一种采用直接进样质谱法进行组蛋白翻译后修饰超快速分析的工作流程。
Bio Protoc. 2020 Sep 20;10(18):e3756. doi: 10.21769/BioProtoc.3756.
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Chromatin dysregulation associated with NSD1 mutation in head and neck squamous cell carcinoma.与头颈部鳞状细胞癌中 NSD1 突变相关的染色质失调。
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5
Depletion of H3K36me2 recapitulates epigenomic and phenotypic changes induced by the H3.3K36M oncohistone mutation.H3K36me2 的耗竭再现了 H3.3K36M 致癌组蛋白突变诱导的表观遗传和表型变化。
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The SWI/SNF complex in cancer - biology, biomarkers and therapy.SWI/SNF 复合物在癌症中的作用——生物学、生物标志物和治疗。
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Extracellular nanovesicles for packaging of CRISPR-Cas9 protein and sgRNA to induce therapeutic exon skipping.用于包装 CRISPR-Cas9 蛋白和 sgRNA 的细胞外纳米囊泡,以诱导治疗性外显子跳跃。
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NSD1 介导了 SWI/SNF 和 polycomb 复合物之间的拮抗作用,并且在 EZH2 抑制时对于转录激活是必需的。

NSD1 mediates antagonism between SWI/SNF and polycomb complexes and is required for transcriptional activation upon EZH2 inhibition.

机构信息

Division of Molecular Oncology, Department of Oncology, St. Jude Children's Research Hospital, Memphis, TN, USA.

Center for Applied Bioinformatics, St. Jude Children's Research Hospital, Memphis, TN, USA.

出版信息

Mol Cell. 2022 Jul 7;82(13):2472-2489.e8. doi: 10.1016/j.molcel.2022.04.015. Epub 2022 May 9.

DOI:10.1016/j.molcel.2022.04.015
PMID:35537449
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9520607/
Abstract

Disruption of antagonism between SWI/SNF chromatin remodelers and polycomb repressor complexes drives the formation of numerous cancer types. Recently, an inhibitor of the polycomb protein EZH2 was approved for the treatment of a sarcoma mutant in the SWI/SNF subunit SMARCB1, but resistance occurs. Here, we performed CRISPR screens in SMARCB1-mutant rhabdoid tumor cells to identify genetic contributors to SWI/SNF-polycomb antagonism and potential resistance mechanisms. We found that loss of the H3K36 methyltransferase NSD1 caused resistance to EZH2 inhibition. We show that NSD1 antagonizes polycomb via cooperation with SWI/SNF and identify co-occurrence of NSD1 inactivation in SWI/SNF-defective cancers, indicating in vivo relevance. We demonstrate that H3K36me2 itself has an essential role in the activation of polycomb target genes as inhibition of the H3K36me2 demethylase KDM2A restores the efficacy of EZH2 inhibition in SWI/SNF-deficient cells lacking NSD1. Together our data expand the mechanistic understanding of SWI/SNF and polycomb interplay and identify NSD1 as the key for coordinating this transcriptional control.

摘要

SWI/SNF 染色质重塑因子与多梳抑制复合物之间的拮抗作用的破坏驱动了许多癌症类型的形成。最近,一种多梳蛋白 EZH2 的抑制剂被批准用于治疗 SWI/SNF 亚基 SMARCB1 中的肉瘤突变体,但会出现耐药性。在这里,我们在 SMARCB1 突变横纹肌肉瘤细胞中进行了 CRISPR 筛选,以鉴定 SWI/SNF-多梳拮抗作用的遗传贡献者和潜在的耐药机制。我们发现,H3K36 甲基转移酶 NSD1 的缺失会导致对 EZH2 抑制的耐药性。我们表明 NSD1 通过与 SWI/SNF 合作来拮抗多梳,并鉴定出 SWI/SNF 缺陷型癌症中 NSD1 失活的共同发生,表明在体内的相关性。我们证明 H3K36me2 本身在多梳靶基因的激活中具有重要作用,因为抑制 H3K36me2 去甲基酶 KDM2A 可以恢复缺乏 NSD1 的 SWI/SNF 缺陷细胞中 EZH2 抑制的疗效。我们的数据一起扩展了对 SWI/SNF 和多梳相互作用的机制理解,并确定 NSD1 是协调这种转录控制的关键。