LncRNA HOTAIRM1 promotes radioresistance in nasopharyngeal carcinoma by modulating FTO acetylation-dependent alternative splicing of CD44

IF 4.8 2区医学 Q1 Biochemistry, Genetics and Molecular Biology

Neoplasia Pub Date : 2024-08-10 DOI:10.1016/j.neo.2024.101034

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引用次数: 0

Abstract

Background

Radiotherapy is the primary treatment for patients with nasopharyngeal carcinoma (NPC); however, almost 20% of patients experience treatment failure due to radioresistance. Therefore, understanding the mechanisms of radioresistance is imperative. HOTAIRM1 is deregulated in various human cancers, yet its role in NPC radioresistance are largely unclear.

Methods

This study investigated the association between HOTAIRM1 and radioresistance using CCK8, flow cytometry, and comet assays. Additionally, xenograft mice and patient-derived xenografts (PDX) models were employed to elucidate the biological functions of HOTAIRM1, and transcriptomic RNA sequencing was utilized to identify its target genes.

Results

Our study revealed an upregulation of HOTAIRM1 levels in radioresistant NPC cell lines and tissues. Furthermore, a positive correlation was noted between high HOTAIRM1 expression and increased NPC cell proliferation, reduced apoptosis, G2/M cell cycle arrest, and diminished cellular DNA damage following radiotherapy. HOTAIRM1 modulates the acetylation and stability of the FTO protein, and inhibiting FTO elevates the m6A methylation level of CD44 precursor transcripts in NPC cells. Additionally, silencing the m6A reading protein YTHDC1 was found to increase the expression of CD44V. HOTAIRM1 enhances NPC cell resistance to ferroptosis and irradiation through the HOTAIRM1-FTO-YTHDC1-CD44 axis. Mechanistically, HOTAIRM1 interacts with the FTO protein and induces m6A demethylation of the CD44 transcript. The absence of m6A modification in the CD44 transcript prevents its recognition by YTHDC1, resulting in the transition from CD44S to CD44V. An abundance of CD44V suppresses ferroptosis induced by irradiation and contributes to NPC radioresistance.

Conclusions

In conclusion, the results in this study support the idea that HOTAIRM1 stimulates CD44 alternative splicing via FTO-mediated demethylation, thereby attenuating ferroptosis induced by irradiation and promoting NPC radioresistance.

查看原文本刊更多论文

LncRNA HOTAIRM1通过调节FTO乙酰化依赖的CD44替代剪接，促进鼻咽癌的放射抗性。

背景：放疗是鼻咽癌（NPC）患者的主要治疗方法；然而，近 20% 的患者会因放射耐药性而导致治疗失败。因此，了解放射抗性的机制势在必行。HOTAIRM1在多种人类癌症中都存在失调，但它在鼻咽癌放射抗性中的作用还不清楚：本研究使用 CCK8、流式细胞术和彗星试验研究了 HOTAIRM1 与放射抗性之间的关联。此外，研究还采用了异种移植小鼠和患者来源异种移植（PDX）模型来阐明HOTAIRM1的生物学功能，并利用转录组RNA测序来确定其靶基因：结果：我们的研究揭示了耐放射性鼻咽癌细胞系和组织中 HOTAIRM1 水平的上调。此外，HOTAIRM1的高表达与放疗后鼻咽癌细胞增殖增加、凋亡减少、G2/M细胞周期停滞和细胞DNA损伤减轻之间存在正相关。HOTAIRM1 可调节 FTO 蛋白的乙酰化和稳定性，抑制 FTO 可提高鼻咽癌细胞 CD44 前体转录物的 m6A 甲基化水平。此外，还发现沉默 m6A 阅读蛋白 YTHDC1 会增加 CD44V 的表达。HOTAIRM1通过HOTAIRM1-FTO-YTHDC1-CD44轴增强了鼻咽癌细胞对铁变态反应和辐照的抵抗力。从机制上讲，HOTAIRM1 与 FTO 蛋白相互作用，诱导 CD44 转录本的 m6A 去甲基化。CD44 转录本中缺乏 m6A 修饰会阻止 YTHDC1 对其进行识别，导致 CD44S 向 CD44V 转化。丰富的 CD44V 可抑制辐照诱导的铁突变，并导致鼻咽癌的放射抗性：总之，本研究的结果支持这样一种观点，即 HOTAIRM1 通过 FTO 介导的去甲基化作用刺激 CD44 的替代剪接，从而抑制辐照诱导的铁变态反应，促进鼻咽癌的放射抗性。

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

Neoplasia 医学-肿瘤学

CiteScore

9.20

自引率

2.10%

发文量

审稿时长

26 days

期刊介绍： Neoplasia publishes the results of novel investigations in all areas of oncology research. The title Neoplasia was chosen to convey the journal’s breadth, which encompasses the traditional disciplines of cancer research as well as emerging fields and interdisciplinary investigations. Neoplasia is interested in studies describing new molecular and genetic findings relating to the neoplastic phenotype and in laboratory and clinical studies demonstrating creative applications of advances in the basic sciences to risk assessment, prognostic indications, detection, diagnosis, and treatment. In addition to regular Research Reports, Neoplasia also publishes Reviews and Meeting Reports. Neoplasia is committed to ensuring a thorough, fair, and rapid review and publication schedule to further its mission of serving both the scientific and clinical communities by disseminating important data and ideas in cancer research.