SMARCA2 和 SMARCA4 参与 DNA 损伤修复

IF 3.3 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Frontiers in bioscience (Landmark edition) Pub Date : 2024-07-23 DOI:10.31083/j.fbl2907262
Lily Yu, Duo Wu
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引用次数: 0

摘要

背景:开关/蔗糖不发酵(SWI/SNF)相关、基质相关、肌动蛋白依赖的染色质调节器亚家族 A(SMARCA)成员 2 和成员 4(SMARCA2/4)是对映体,是 SWI/SNF 复合物中染色质重塑的关键酶亚基。然而,SMARCA2/4在DNA损伤反应中的作用仍不清楚:方法:通过激光微辐照实验来研究 SMARCA2/4 在将 SWI/SNF 复合物迁移到 DNA 损伤点时的关键结构域。为了研究介导SMARCA2/4招募的关键因素,研究人员在用共济失调-毛细血管扩张症突变(ATM)抑制剂处理的HeLa细胞中检测了SMARCA2/4向DNA损伤部位的迁移、ATR)、CREB 结合蛋白(CBP)及其同源物 p300(p300/CBP)或聚(ADP-核糖)聚合酶(PARP)1/2 的抑制剂处理的 HeLa 细胞以及 H2AX 缺失的 HeLa 细胞中,研究了 SMARCA2/4 在 DNA 病变处的迁移情况。此外,通过用小分子抑制剂 FHD286 或化合物 14 同时抑制 SMARCA2/4,研究了 SMARCA2/4 在辐射敏感 51(RAD51)病灶形成和同源重组修复中的功能。最后,利用集落形成试验,研究了 PARP 抑制剂和 SMARCA2/4 抑制剂对抑制肿瘤细胞生长的协同作用:结果:我们发现,SMARCA2/4在DNA损伤时会迁移到DNA病变部位,这需要它们的ATP酶活性。此外,SWI/SNF 复合物中的其他亚基迁移到 DNA 损伤处也需要这些 ATPase 活性。有趣的是,SMARCA2/4 的迁移与 γH2AX、ATM、ATR、p300/CBP 或 PARP1/2 无关,这表明它可能作为 DNA 损伤传感器直接识别 DNA 病变。缺乏 SMARCA2/4,γH2AX、环指蛋白 8(RNF8)和乳腺癌易感基因 1(BRCA1)在 DNA 病变处的滞留时间就会延长,并损害 RAD51 依赖性同源重组修复。此外,SMARCA2/4抑制剂可使肿瘤细胞对PARP抑制剂治疗敏感:本研究揭示了 SMARCA2/4 是一种用于双链断裂修复的 DNA 损伤修复因子。
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SMARCA2 and SMARCA4 Participate in DNA Damage Repair.

Background: The switching/sucrose non-fermentable (SWI/SNF) Related, Matrix Associated, Actin Dependent Regulator Of Chromatin, Subfamily A (SMARCA) member 2 and member 4 (SMARCA2/4) are paralogs and act as the key enzymatic subunits in the SWI/SNF complex for chromatin remodeling. However, the role of SMARCA2/4 in DNA damage response remains unclear.

Methods: Laser microirradiation assays were performed to examine the key domains of SMARCA2/4 for the relocation of the SWI/SNF complex to DNA lesions. To examine the key factors that mediate the recruitment of SMARCA2/4, the relocation of SMARCA2/4 to DNA lesions was examined in HeLa cells treated with inhibitors of Ataxia-telangiectasia-mutated (ATM), Ataxia telangiectasia and Rad3-related protein (ATR), CREB-binding protein (CBP) and its homologue p300 (p300/CBP), or Poly (ADP-ribose) polymerase (PARP) 1/2 as well as in H2AX-deficient HeLa cells. Moreover, by concomitantly suppressing SMARCA2/4 with the small molecule inhibitor FHD286 or Compound 14, the function of SMARCA2/4 in Radiation sensitive 51 (RAD51) foci formation and homologous recombination repair was examined. Finally, using a colony formation assay, the synergistic effect of PARP inhibitors and SMARCA2/4 inhibitors on the suppression of tumor cell growth was examined.

Results: We show that SMARCA2/4 relocate to DNA lesions in response to DNA damage, which requires their ATPase activities. Moreover, these ATPase activities are also required for the relocation of other subunits in the SWI/SNF complex to DNA lesions. Interestingly, the relocation of SMARCA2/4 is independent of γH2AX, ATM, ATR, p300/CBP, or PARP1/2, indicating that it may directly recognize DNA lesions as a DNA damage sensor. Lacking SMARCA2/4 prolongs the retention of γH2AX, Ring Finger Protein 8 (RNF8) and Breast cancer susceptibility gene 1 (BRCA1) at DNA lesions and impairs RAD51-dependent homologous recombination repair. Furthermore, the treatment of an SMARCA2/4 inhibitor sensitizes tumor cells to PARP inhibitor treatment.

Conclusions: This study reveals SMARCA2/4 as a DNA damage repair factor for double-strand break repair.

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