NAT10 通过增强膀胱癌中 ac4C 相关的 DNA 修复来驱动顺铂化疗耐药性。

NAT10 Drives Cisplatin Chemoresistance by Enhancing ac4C-Associated DNA Repair in Bladder Cancer.

机构信息

Department of Urology, Sun Yat-Sen Memorial Hospital, Sun Yat-Sen University, Guangzhou, Guangdong, P. R. China.

Guangdong Provincial Key Laboratory of Malignant Tumor Epigenetics and Gene Regulation, Sun Yat-Sen Memorial Hospital, Sun Yat-Sen University, Guangzhou, Guangdong, P. R. China.

出版信息

Cancer Res. 2023 May 15;83(10):1666-1683. doi: 10.1158/0008-5472.CAN-22-2233.

DOI:10.1158/0008-5472.CAN-22-2233

PMID:36939377

Abstract

UNLABELLED

Epitranscriptomic RNA modifications constitute a critical gene regulatory component that can affect cancer progression. Among these, the RNA N4-acetylcytidine (ac4C) modification, which is mediated by the ac4C writer N-acetyltransferase 10 (NAT10), regulates the stabilization of mRNA. Here, we identified that the ac4C modification is induced upon cisplatin treatment and correlates with chemoresistance in bladder cancer. Both in vitro and in vivo, NAT10 promoted cisplatin chemoresistance in bladder cancer cells by enhancing DNA damage repair (DDR). Mechanistically, NAT10 bound and stabilized AHNAK mRNA by protecting it from exonucleases, and AHNAK-mediated DDR was required for NAT10-induced cisplatin resistance. Clinically, NAT10 overexpression was associated with chemoresistance, recurrence, and worse clinical outcome in patients with bladder cancer. Cisplatin-induced NFκB signaling activation was required for the upregulation of NAT10 expression, and NFκB p65 directly bound to the NAT10 promoter to activate transcription. Moreover, pharmacological inhibition of NAT10 with Remodelin sensitized bladder cancer organoids and mouse xenografts to cisplatin. Overall, the present study uncovered a mechanism of NAT10-mediated mRNA stabilization in bladder cancer, laying the foundation for NAT10 as a therapeutic target to overcome cisplatin resistance in bladder cancer.

SIGNIFICANCE

The mRNA ac4C writer NAT10 stimulates DNA damage repair to promote cisplatin chemoresistance in bladder cancer, identifying NAT10 inhibition as a potential therapeutic approach to enhance cisplatin sensitivity.

摘要

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转录后 RNA 修饰构成了关键的基因调控成分，可影响癌症进展。在这些修饰中，由 ac4C 写入器 N-乙酰转移酶 10（NAT10）介导的 RNA N4-乙酰胞嘧啶（ac4C）修饰调节 mRNA 的稳定。在这里，我们发现 ac4C 修饰在顺铂处理后被诱导，并与膀胱癌的化疗耐药性相关。在体外和体内，NAT10 通过增强 DNA 损伤修复（DDR）促进膀胱癌细胞对顺铂的化疗耐药性。从机制上讲，NAT10 通过保护其免受核酸外切酶的作用来结合并稳定 AHNAK mRNA，而 AHNAK 介导的 DDR 是 NAT10 诱导的顺铂耐药所必需的。临床上，NAT10 的过表达与膀胱癌患者的化疗耐药、复发和预后不良相关。顺铂诱导的 NFκB 信号激活是 NAT10 表达上调所必需的，NFκB p65 直接结合 NAT10 启动子以激活转录。此外，用 Remodelin 抑制 NAT10 可使膀胱癌类器官和小鼠异种移植对顺铂敏感。总的来说，本研究揭示了 NAT10 介导的膀胱癌中 mRNA 稳定的机制，为 NAT10 作为克服膀胱癌中顺铂耐药性的治疗靶点奠定了基础。

意义

mRNA ac4C 写入器 NAT10 刺激 DNA 损伤修复以促进膀胱癌对顺铂的化疗耐药性，鉴定出 NAT10 抑制作为增强顺铂敏感性的潜在治疗方法。

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NAT10 通过增强膀胱癌中 ac4C 相关的 DNA 修复来驱动顺铂化疗耐药性。

NAT10 Drives Cisplatin Chemoresistance by Enhancing ac4C-Associated DNA Repair in Bladder Cancer.

机构信息

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