CSDE1 enhances genotoxic drug resistance in cancer by modulating RPA2 through CSDE1-eIF3a regulatory complex

IF 15.8 1区医学 Q1 PHARMACOLOGY & PHARMACY

Drug Resistance Updates Pub Date : 2025-05-13 DOI:10.1016/j.drup.2025.101249

Jia-Jia Cui , Cheng-Xian Guo , Jun Li , Ao-Xiang Guo , Zhao Zhang , Si-Yu Li , Lei-Yun Wang , Xiang-Bin Jia , Hui Guo , Kun Xia , Zheng-Mao Hu , Qian-Ying Ouyang , Yang Wang , Yu-Ting Xie , Zhao-Qian Liu , Jian-Ting Zhang , Wei Wu , Yong-Heng Chen , Ji-Ye Yin

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引用次数: 0

Abstract

Aims

Genotoxic drug resistance is one of the major obstacles for cancer treatment. Our previous study demonstrates that cold shock domain containing E1 (CSDE1) is associated with drug resistance. In this study, we aim to demonstrate that CSDE1 regulates cellular response to genotoxic drugs and to investigate its mechanism of action in drug resistance.

Methods

Tissues and blood samples from cancer patients were used to evaluate the relationship between CSDE1 and genotoxic drug response. Comet and immunofluorescence assays were conducted to investigate the role of CSDE1 in DNA damage repair. Systematic knockout mouse models were used to study the underlying mechanism involved. Biotin pull-down, EMSA and co-IP assays were used to probe the triplex structure of CSDE1-protein (eIF3a)-RNA (RPA2).

Results

CSDE1 elevation correlates with poor response in patient and increased resistance in cell lines to genotoxic drugs. CSDE1 upregulated the nucleotide excision repair (NER) and homologous recombination (HR) pathways. In X-ray irradiation or bleomycin-induced DNA damage mouse model, systemic CSDE1 knockout resulted in increased DNA damage. In both a CSDE1 knockout mouse model and cancer cell lines, CSDE1 inhibited the cGAS-STING pathway through RPA2. Mechanistic studies indicated that CSDE1 serves as a hub for the binding of the CSDE1-protein (eIF3a)-RNA (RPA2) ternary complex.

Conclusions

This study reveals the new role of CSDE1 in enhancing resistance to genotoxic drugs, and the detailed zipper-like cross ternary structural of CSDE1. It provides a new strategy for enhancing genotoxic drugs sensitivity.

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CSDE1通过CSDE1- eif3a调控复合体调控RPA2，增强肿瘤基因毒性耐药

目的基因毒性耐药是癌症治疗的主要障碍之一。我们之前的研究表明冷休克结构域含有E1 （CSDE1）与耐药有关。在本研究中，我们旨在证明CSDE1调节细胞对遗传毒性药物的反应，并探讨其在耐药中的作用机制。方法采用肿瘤患者标本和血液标本，评价CSDE1与基因毒性药物反应的关系。采用彗星法和免疫荧光法研究CSDE1在DNA损伤修复中的作用。系统敲除小鼠模型用于研究所涉及的潜在机制。采用生物素下拉法、EMSA法和co-IP法检测csde1蛋白(eIF3a)-RNA （RPA2）的三重结构。结果scsde1升高与患者对基因毒性药物的不良反应和细胞系耐药增加有关。CSDE1上调核苷酸切除修复（NER）和同源重组（HR）途径。在x射线照射或博来霉素诱导的DNA损伤小鼠模型中，系统性敲除CSDE1导致DNA损伤增加。在CSDE1敲除小鼠模型和癌细胞系中，CSDE1均通过RPA2抑制cGAS-STING通路。机制研究表明，CSDE1是CSDE1蛋白(eIF3a)-RNA （RPA2）三元配合物结合的枢纽。结论本研究揭示了CSDE1在增强基因毒性药物耐药性中的新作用，并详细揭示了CSDE1的拉链状交叉三元结构。为提高基因毒性药物的敏感性提供了新的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Drug Resistance Updates 医学-药学

CiteScore

26.20

自引率

11.90%

发文量

审稿时长

29 days

期刊介绍： Drug Resistance Updates serves as a platform for publishing original research, commentary, and expert reviews on significant advancements in drug resistance related to infectious diseases and cancer. It encompasses diverse disciplines such as molecular biology, biochemistry, cell biology, pharmacology, microbiology, preclinical therapeutics, oncology, and clinical medicine. The journal addresses both basic research and clinical aspects of drug resistance, providing insights into novel drugs and strategies to overcome resistance. Original research articles are welcomed, and review articles are authored by leaders in the field by invitation. Articles are written by leaders in the field, in response to an invitation from the Editors, and are peer-reviewed prior to publication. Articles are clear, readable, and up-to-date, suitable for a multidisciplinary readership and include schematic diagrams and other illustrations conveying the major points of the article. The goal is to highlight recent areas of growth and put them in perspective. *Expert reviews in clinical and basic drug resistance research in oncology and infectious disease *Describes emerging technologies and therapies, particularly those that overcome drug resistance *Emphasises common themes in microbial and cancer research