Department of Radiation Oncology, The Ohio State University James Comprehensive Cancer Center and College of Medicine, Ohio.
University of Rochester, Rochester, New York.
Cancer Res. 2020 Aug 15;80(16):3305-3318. doi: 10.1158/0008-5472.CAN-20-0057. Epub 2020 Jun 10.
There is currently a lack of precise predictive biomarkers for patient selection in clinical trials of inhibitors targeting replication stress (RS) response proteins ATR and CHK1. The objective of this study was to identify novel predictive biomarkers for the response to these agents in treating non-small cell lung cancer (NSCLC). A genome-wide loss-of-function screen revealed that tumor suppressor PPP2R2A, a B regulatory subunit of protein phosphatase 2 (PP2A), determines sensitivity to CHK1 inhibition. A synthetic lethal interaction between PPP2R2A deficiency and ATR or CHK1 inhibition was observed in NSCLC and and was independent of p53 status. ATR and CHK1 inhibition resulted in significantly increased levels of RS and altered replication dynamics, particularly in PPP2R2A-deficient NSCLC cells. Mechanistically, PPP2R2A negatively regulated translation of oncogene c-Myc protein. c-Myc activity was required for PPP2R2A deficiency-induced alterations of replication initiation/RS and sensitivity to ATR/CHK1 inhibitors. We conclude that PPP2R2A deficiency elevates RS by upregulating c-Myc activity, rendering cells reliant on the ATR/CHK1 axis for survival. Our studies show a novel synthetic lethal interaction and identify PPP2R2A as a potential new predictive biomarker for patient stratification in the clinical use of ATR and CHK1 inhibitors. SIGNIFICANCE: This study reveals new approaches to specifically target PPP2R2A-deficient lung cancer cells and provides a novel biomarker that will significantly improve treatment outcome with ATR and CHK1 inhibitors.
目前,针对靶向复制应激 (RS) 反应蛋白 ATR 和 CHK1 的抑制剂的临床试验中,缺乏精确的预测性生物标志物用于患者选择。本研究的目的是确定用于治疗非小细胞肺癌 (NSCLC) 中这些药物反应的新型预测性生物标志物。全基因组功能丧失筛选显示,肿瘤抑制因子 PPP2R2A(蛋白磷酸酶 2 (PP2A) 的 B 调节亚基)决定了对 CHK1 抑制的敏感性。在 NSCLC 中观察到 PPP2R2A 缺陷与 ATR 或 CHK1 抑制之间的合成致死相互作用,并且与 p53 状态无关。ATR 和 CHK1 抑制导致 RS 水平显著升高,并改变复制动力学,特别是在 PPP2R2A 缺陷的 NSCLC 细胞中。从机制上讲,PPP2R2A 负调控癌基因 c-Myc 蛋白的翻译。c-Myc 活性是 PPP2R2A 缺陷诱导的复制起始/RS 改变和对 ATR/CHK1 抑制剂敏感性所必需的。我们得出结论,PPP2R2A 缺陷通过上调 c-Myc 活性来升高 RS,使细胞依赖 ATR/CHK1 轴生存。我们的研究表明了一种新的合成致死相互作用,并确定 PPP2R2A 是 ATR 和 CHK1 抑制剂临床应用中患者分层的潜在新的预测性生物标志物。意义:这项研究揭示了针对 PPP2R2A 缺陷性肺癌细胞的新方法,并提供了一种新的生物标志物,将显著改善 ATR 和 CHK1 抑制剂的治疗效果。