奥兰诺芬
癌症研究
DNA复制
共济失调毛细血管扩张
变构调节
DNA损伤
生物
DNA复制因子CDT1
化学
激酶
综合应力响应
复制因子C
复制蛋白A
激活剂(遗传学)
紫杉醇
细胞生物学
癌症
药品
乳腺癌
拓扑异构酶
复制(统计)
细胞应激反应
支票1
聚ADP核糖聚合酶
作者
Ma Shuai,Yingying Han,Rui Gu,Qi Chen,Qiushi Guo,Yuan Yue,Cheng Cao,Ling Liu,Zhenzhen Yang,Yan Qin,Ying Yang,Kai Zhang,Fei Liu,Lin Liu,Na Yang,Jihui Hao,Jie Yang,Zhi Yao,Xiaoyun Mao,Lei Shi
摘要
Genome instability is most commonly caused by replication stress, which also renders cancer cells extremely vulnerable once their response to replication stress is impeded. Topoisomerase II binding protein 1 (TOPBP1), an allosteric activator of ataxia telangiectasia and Rad3-related kinase (ATR), coordinates ATR in replication stress response and has emerged as a potential therapeutic target for tumors. Here, we identify auranofin, the FDA-approved drug for rheumatoid arthritis, as a lead compound capable of binding to the BRCT 7-8 domains and blocking TOPBP1 interaction with PHF8 and FANCJ. The liquid-liquid phase separation of TOPBP1 is also disrupted by auranofin. Through targeting these TOPBP1-nucleated molecular machineries, auranofin leads to an accumulation of replication defects by impairing ATR activation and attenuating replication protein A loading on perturbed replication forks, and it shows significant anti-breast tumor activity in combination with a PARP inhibitor. This study provides mechanistic insights into how auranofin challenges replication integrity and expands the application of this FDA-approved drug in breast tumor intervention.
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