mA修饰的SNRPA控制ERCC1外显子8的可变剪接以诱导肺腺癌顺铂耐药。

mA-Modified SNRPA Controls Alternative Splicing of ERCC1 Exon 8 to Induce Cisplatin Resistance in Lung Adenocarcinoma.

作者信息

Fan Weina, Huang Jian, Tian Fanglin, Hong Xin, Zhu Kexin, Zhan Yuning, Li Xin, Wang Xiangyu, Wang Xin, Cai Li, Xing Ying

机构信息

The Fourth Department of Medical Oncology, Harbin Medical University Cancer Hospital, 150 Haping Road, Harbin, 150081, China.

NHC and CAMS Key Laboratory of Molecular Probe and Targeted Theranostics, Harbin Medical University, Harbin, 150001, China.

出版信息

Adv Sci (Weinh). 2024 Dec;11(47):e2404609. doi: 10.1002/advs.202404609. Epub 2024 Nov 18.

DOI:10.1002/advs.202404609

PMID:39555714

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11653629/

Abstract

Alternative splicing (AS) generates protein diversity and is exploited by cancer cells to drive tumor progression and resistance to many cancer therapies, including chemotherapy. SNRPA is first identified as a spliceosome-related gene that potentially modulates resistance to platinum chemotherapy. Both the knockout or the knockdown of SNRPA via CRISPR/Cas9 and shRNA techniques can reverse the resistance of cisplatin-resistant lung adenocarcinoma (LUAD) cells to cisplatin. SNRPA overexpression enhanced the resistance of cisplatin-sensitive LUAD cells. Gene Ontology (GO) analysis reveals that SNRPA is associated with DNA damage repair. Depletion of SNRPA induced ERCC1 exon 8 skipping and reduced ERCC1-XPF complex formation, whereas SNRPA overexpression exerted the opposite effect. siRNAs targeting isoforms containing ERCC1 exon 8 [ERCC1-E8 (+)] reversed SNRPA-enhanced cisplatin resistance and DNA damage repair. Furthermore, the IGF2BP protein, an mA reader, and the ELAVL1 protein, an RNA stabilizer recruited by IGF2BP1, are found to bind to the SNRPA mRNA. ELAVL1 promoted cisplatin resistance, DNA repair and ERCC1-E8 (+) expression in an SNRPA-dependent manner. In a mouse xenograft model, SNRPA-KO CRISPR enhanced the sensitivity of LUAD cells to cisplatin. Overall, this study illuminates the role of SNRPA in platinum-based drug resistance, thereby providing a novel avenue to potentially enhance chemosensitivity and improve the prognosis of patients with LUAD.

摘要

可变剪接（AS）产生蛋白质多样性，癌细胞利用它来推动肿瘤进展以及对包括化疗在内的多种癌症治疗产生耐药性。SNRPA最初被鉴定为一种与剪接体相关的基因，它可能调节对铂类化疗的耐药性。通过CRISPR/Cas9和shRNA技术敲除或敲低SNRPA均可逆转顺铂耐药肺腺癌（LUAD）细胞对顺铂的耐药性。SNRPA过表达增强了顺铂敏感LUAD细胞的耐药性。基因本体论（GO）分析表明，SNRPA与DNA损伤修复有关。SNRPA的缺失诱导ERCC1外显子8跳跃并减少ERCC1-XPF复合物的形成，而SNRPA过表达则产生相反的效果。靶向含有ERCC1外显子8的异构体[ERCC1-E8（+）]的小干扰RNA（siRNA）逆转了SNRPA增强的顺铂耐药性和DNA损伤修复。此外，发现一种mA阅读器IGF2BP蛋白和一种由IGF2BP1招募的RNA稳定剂ELAVL1蛋白与SNRPA mRNA结合。ELAVL1以SNRPA依赖的方式促进顺铂耐药性、DNA修复和ERCC1-E8（+）表达。在小鼠异种移植模型中，SNRPA-KO CRISPR增强了LUAD细胞对顺铂的敏感性。总体而言，本研究阐明了SNRPA在铂类药物耐药性中的作用，从而为潜在增强化疗敏感性和改善LUAD患者预后提供了一条新途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/914d/11653629/6b8f9d2ce6d8/ADVS-11-2404609-g005.jpg

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mA修饰的SNRPA控制ERCC1外显子8的可变剪接以诱导肺腺癌顺铂耐药。

mA-Modified SNRPA Controls Alternative Splicing of ERCC1 Exon 8 to Induce Cisplatin Resistance in Lung Adenocarcinoma.

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