Zhuang Xucui, Xiao Rourou, Fu Yu, Yang Bin, Fan Junpeng, Lu Funian, Qin Tianyu, Yang Xiaohang, Hu Xingyuan, Yin Jingjing, Li Wenting, Kang Xiaoyan, Chen Gang, Hu Dianxing, Sun Chaoyang
Department of Gynecological Oncology, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China.
National Clinical Research Center for Obstetrics and Gynecology, Cancer Biology Research Center (Key Laboratory of the Ministry of Education), Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China.
Cell Biosci. 2023 Sep 27;13(1):178. doi: 10.1186/s13578-023-01117-0.
Although the clinical application of PARP inhibitors has brought hope to ovarian cancer, the problem of its resistance has become increasingly prominent. Therefore, clinical experts have been focused on finding specific indicators and therapeutic targets that can be used for resistance monitoring of PARP inhibitors.
By cfDNA detecting during Olaparib maintenance therapy in platinum-sensitive relapsed ovarian cancer, we found the presence of MRE11:p.K464R mutation was strongly associated with acquired Olaparib resistance. Structural analysis revealed that the MRE11:p.K464R mutation is situated at a critical site where the MRE11 protein interacts with other biomolecules, leading to potential structural and functional abnormalities of MRE11 protein. Functionally, MRE11:p.K464R mutation enhanced the tolerance of Olaparib by reducing the DNA damage. Mechanistically, MRE11:p.K464R mutation improved the efficiency of DNA damage repair and induce Olaparib resistance by enhancing its binding activity with the interacting proteins (including RAD50 and RPS3). Among them, the enhanced binding of MRE11:p.K464R mutation to RAD50/RPS3 facilitated non-homologous end joining (NHEJ) repair in tumor cells, thereby expanding the scope of research into acquired resistance to PARP inhibitors.
Our findings provide a theoretical basis for MRE11:p.K464R mutation as a specific indicator of resistance monitoring in Olaparib treatment, and the exploration of its resistance mechanism provides a novel insights for the formulation of combination ther therapies after Olaparib resistance.
尽管PARP抑制剂的临床应用给卵巢癌带来了希望,但其耐药问题日益突出。因此,临床专家一直致力于寻找可用于PARP抑制剂耐药监测的特异性指标和治疗靶点。
通过在铂敏感复发卵巢癌奥拉帕利维持治疗期间检测cfDNA,我们发现MRE11:p.K464R突变的存在与获得性奥拉帕利耐药密切相关。结构分析表明,MRE11:p.K464R突变位于MRE11蛋白与其他生物分子相互作用的关键位点,导致MRE11蛋白潜在的结构和功能异常。在功能上,MRE11:p.K464R突变通过减少DNA损伤增强了对奥拉帕利的耐受性。机制上,MRE11:p.K464R突变提高了DNA损伤修复效率,并通过增强其与相互作用蛋白(包括RAD50和RPS3)的结合活性诱导奥拉帕利耐药。其中,MRE11:p.K464R突变与RAD50/RPS3结合增强促进了肿瘤细胞中的非同源末端连接(NHEJ)修复,从而拓宽了对PARP抑制剂获得性耐药的研究范围。
我们的研究结果为MRE11:p.K464R突变作为奥拉帕利治疗耐药监测的特异性指标提供了理论依据,对其耐药机制的探索为奥拉帕利耐药后联合治疗方案的制定提供了新的见解。
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