Department of Life Science, The Research Center for Cellular Homeostasis, Ewha Womans University, Seoul, Korea.
Department of Nuclear Medicine and Biomedical Sciences, Cancer Research Institute, Seoul National University College of Medicine, Seoul, Korea.
Mol Cancer Ther. 2015 Feb;14(2):597-607. doi: 10.1158/1535-7163.MCT-14-0372. Epub 2014 Dec 12.
Radiotherapy treats cancer by inducing DNA double-strand breaks (DSB) in tumor cells using ionizing radiation. However, DNA repair in tumor cells often leads to radioresistance and unsuccessful outcome. Inhibition of DNA repair by targeting repair proteins can increase radiosensitivity of tumor cells. The BRG1 chromatin remodeling enzyme assists DSB repair by stimulating γ-H2AX formation and BRG1 binding to acetylated histones at DSBs via bromodomain (BRD) is critical for this activity. Here, we show that ectopic expression of BRG1-BRD inhibited γ-H2AX and DSB repair after irradiation and increased the radiosensitivity in various human cancer cells, including HT29 colon cancer. Dimerization of BRG1-BRD, increasing its chromatin binding affinity, aggravated the defects in γ-H2AX and DSB repair and further enhanced the radiosensitivity. While little affecting the upstream ATM activation, BRG1-BRD in irradiated HT29 cells inhibited the recruitment of 53BP1 to damaged chromatin, the downstream event of γ-H2AX, and compromised the G2-M checkpoint and increased apoptosis. Importantly, in a xenograft mouse model, BRG1-BRD increased the radiosensitivity of HT29 tumors, which was further enhanced by dimerization. These data suggest that BRG1-BRD radiosensitizes tumor cells by a dominant negative activity against BRG1, which disrupts γ-H2AX and its downstream 53BP1 pathways, leading to inefficient DNA repair, G2-M checkpoint defect, and increased apoptosis. This work therefore identifies BRG1-BRD as a novel tumor radiosensitizer and its action mechanism, providing the first example of chromatin remodeler as a target for improving cancer radiotherapy.
放射疗法通过使用电离辐射在肿瘤细胞中诱导 DNA 双链断裂 (DSB) 来治疗癌症。然而,肿瘤细胞中的 DNA 修复常常导致放射抗性和治疗失败。通过靶向修复蛋白抑制 DNA 修复可以增加肿瘤细胞的放射敏感性。BRG1 染色质重塑酶通过刺激 γ-H2AX 形成和 BRG1 与 DSB 处乙酰化组蛋白的结合来协助 DSB 修复,BRD 对于这种活性至关重要。在这里,我们表明 BRG1-BRD 的异位表达抑制了照射后的 γ-H2AX 和 DSB 修复,并增加了各种人类癌细胞(包括 HT29 结肠癌细胞)的放射敏感性。BRG1-BRD 的二聚化增加了其染色质结合亲和力,加剧了 γ-H2AX 和 DSB 修复的缺陷,并进一步增强了放射敏感性。虽然对上游 ATM 激活的影响很小,但 BRG1-BRD 在照射的 HT29 细胞中抑制了 53BP1 到受损染色质的募集,这是 γ-H2AX 的下游事件,并损害了 G2-M 检查点并增加了细胞凋亡。重要的是,在异种移植小鼠模型中,BRG1-BRD 增加了 HT29 肿瘤的放射敏感性,二聚化进一步增强了这种敏感性。这些数据表明,BRG1-BRD 通过对 BRG1 的显性负作用使肿瘤细胞放射敏感,从而破坏了 γ-H2AX 及其下游 53BP1 途径,导致 DNA 修复效率低下、G2-M 检查点缺陷和细胞凋亡增加。因此,这项工作确定 BRG1-BRD 是一种新型的肿瘤放射增敏剂,其作用机制为染色质重塑酶作为提高癌症放射治疗效果的靶点提供了首例。
