KDM4A介导的组蛋白甲基化通过HUWE1/ROCK2轴对神经胶质瘤细胞替莫唑胺耐药性的作用。

The Kaohsiung journal of medical sciences Pub Date : 2024-02-01 Epub Date: 2023-10-24 DOI:10.1002/kjm2.12768
Xi-Xi Li, Jia-Kun Xu, Wei-Jie Su, Hong-Lin Wu, Kun Zhao, Chang-Ming Zhang, Xiang-Kun Chen, Li-Xuan Yang
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摘要

替莫唑胺(TMZ)耐药性对胶质瘤的治疗提出了重大挑战。尽管赖氨酸去甲基酶4A(KDM4A)与各种癌症相关过程有关,但其在TMZ耐药性中的作用尚不清楚。本研究旨在阐明KDM4A对胶质瘤细胞TMZ耐药性的贡献及其对胶质瘤预后的潜在影响。我们使用qRT-PCR和蛋白质印迹分析来评估KDM4A在神经胶质瘤细胞(T98G和U251MG)中的表达。为了探讨KDM4A在TMZ耐药性中的作用,我们将靶向KDM4A的siRNA转染到耐药的神经胶质瘤细胞中。使用CCK-8测定法评估细胞活力,并测定TMZ IC50值。进行ChIP测定以研究KDM4A、H3K9me3和H3K36me3对ROCK2和HUWE1启动子的富集。免疫共沉淀证实了HUWE1和ROCK2之间的相互作用,我们检测了MG132处理后ROCK2泛素化的水平。值得注意的是,T98G细胞比U251MG细胞表现出更大的TMZ抗性,并且KDM4A在T98G中表现出高表达。抑制KDM4A导致细胞活力降低和TMZ IC50值降低。从机制上讲,KDM4A通过调节H3K9me3水平来促进ROCK2转录。此外,HUWE1和ROCK2之间相互作用的破坏导致ROCK2泛素化减少。HUWE1的抑制或ROCK2的过表达抵消了si-KDM4A对T98G细胞TMZ反应性的增敏作用。我们的研究结果强调了KDM4A通过去除H3K9me3和H3K36me3来调节ROCK2和HUWE1的转录和表达,从而在增强神经胶质瘤细胞TMZ耐药性中的作用。
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The role of KDM4A-mediated histone methylation on temozolomide resistance in glioma cells through the HUWE1/ROCK2 axis.

Temozolomide (TMZ) resistance presents a significant challenge in the treatment of gliomas. Although lysine demethylase 4A (KDM4A) has been implicated in various cancer-related processes, its role in TMZ resistance remains unclear. This study aims to elucidate the contribution of KDM4A to TMZ resistance in glioma cells and its potential implications for glioma prognosis. We assessed the expression of KDM4A in glioma cells (T98G and U251MG) using qRT-PCR and Western blot assays. To explore the role of KDM4A in TMZ resistance, we transfected siRNA targeting KDM4A into drug-resistant glioma cells. Cell viability was assessed using the CCK-8 assay and the TMZ IC50 value was determined. ChIP assays were conducted to investigate KDM4A, H3K9me3, and H3K36me3 enrichment on the promoters of ROCK2 and HUWE1. Co-immunoprecipitation confirmed the interaction between HUWE1 and ROCK2, and we examined the levels of ROCK2 ubiquitination following MG132 treatment. Notably, T98G cells exhibited greater resistance to TMZ than U251MG cells, and KDM4A displayed high expression in T98G cells. Inhibiting KDM4A resulted in decreased cell viability and a reduction in the TMZ IC50 value. Mechanistically, KDM4A promoted ROCK2 transcription by modulating H3K9me3 levels. Moreover, disruption of the interaction between HUWE1 and ROCK2 led to reduced ROCK2 ubiquitination. Inhibition of HUWE1 or overexpression of ROCK2 counteracted the sensitization effect of si-KDM4A on TMZ responsiveness in T98G cells. Our findings highlight KDM4A's role in enhancing TMZ resistance in glioma cells by modulating ROCK2 and HUWE1 transcription and expression through H3K9me3 and H3K36me3 removal.

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