Clinical homologous recombination repair gene reversion analysis identifies mechanisms of resistance to PARP inhibitors and platinum‐chemotherapy

Yan Jia; Qiong Yang; Yutong Ma; Miaofang Wu; Qiuxiang Ou; Zhongqiu Lin; Yunyu Wu; Jing Li

doi:10.1002/mog2.79

MedComm – Oncology (Jun 2024)

Clinical homologous recombination repair gene reversion analysis identifies mechanisms of resistance to PARP inhibitors and platinum‐chemotherapy

Yan Jia,
Qiong Yang,
Yutong Ma,
Miaofang Wu,
Qiuxiang Ou,
Zhongqiu Lin,
Yunyu Wu,
Jing Li

Affiliations

Yan Jia: Department of Obstetrics and Gynecology The Second Hospital of Jilin University Changchun Jilin China
Qiong Yang: Department of Oncology, Sun Yat‐sen Memorial Hospital Sun Yat‐sen University Guangzhou Guangdong China
Yutong Ma: Geneseeq Research Institute Nanjing Geneseeq Technology Inc. Nanjing Jiangsu China
Miaofang Wu: Department of Gynecologic Oncology, Sun Yat‐sen Memorial Hospital Sun Yat‐sen University Guangzhou Guangdong China
Qiuxiang Ou: Geneseeq Research Institute Nanjing Geneseeq Technology Inc. Nanjing Jiangsu China
Zhongqiu Lin: Department of Gynecologic Oncology, Sun Yat‐sen Memorial Hospital Sun Yat‐sen University Guangzhou Guangdong China
Yunyu Wu: Department of Gynaecological Oncology Affiliated Cancer Hospital and Institute of Guangzhou Medical University Guangzhou Guangdong China
Jing Li: Department of Gynecologic Oncology, Sun Yat‐sen Memorial Hospital Sun Yat‐sen University Guangzhou Guangdong China

DOI: https://doi.org/10.1002/mog2.79
Journal volume & issue: Vol. 3, no. 2
pp. n/a – n/a

Abstract

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Abstract Identifying mechanisms underlying cancer resistance to therapy is vital for advancing treatment strategies. Pathogenic mutations of homologous recombination repair (HRR) genes are known biomarkers for platinum (Pt)‐based chemotherapy and poly ADP ribose polymerase inhibitors (PARPi) effectiveness. Yet, the dynamics of HRR reversion mutations, which may herald therapy resistance, are not fully elucidated. Addressing this gap, our study analyzed secondary HRR gene mutations in a comprehensive pan‐cancer data set of approximately 13,000 patients who underwent targeted next‐generation sequencing. We identified a subset of patients harboring secondary mutations, which were further categorized into three tiers based on their nature, and occur in the presence of a primary pathogenic mutation, notably in BRCA1, BRCA2, PALB2, and RAD51D genes. Here we show that secondary BRCA2 mutations, indicative of adaptive resistance, emerge post‐Pt/Olaparib treatment. This challenges the prevailing notion that pathogenic HRR mutations uniformly predict therapeutic sensitivity, highlighting a nuanced genetic interplay that impacts treatment success. This investigation enriches our understanding of cancer's adaptive mechanisms against therapy, suggesting a pivotal shift towards more personalized, dynamic treatment strategies. It underscores the imperative of adapting to cancer's genetic evolution, aiming for a step ahead in the ongoing battle against this disease.

Published in MedComm – Oncology

ISSN: 2769-6448 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://onlinelibrary.wiley.com/journal/27696448

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