抑制mat2a相关蛋氨酸代谢增强顺铂对肺癌顺铂耐药细胞的疗效

Xiaoya Zhao, Lude Wang, Hai-Fei Lin, Jing Wang, Jianfei Fu, D. Zhu, Wenxia Xu
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Crystal violet staining was used to investigate cell proliferation. Additionally, we explored the transcriptional changes in lung cancer cells via RNA-seq. Results We found H460/DDP and PC-9 cells were more resistant to cisplatin than H460, and MAT2A was overexpressed in cisplatin-resistant cells. Interestingly, methionine deficiency enhanced the inhibitory effect of cisplatin on cell activity and the pro-apoptotic effect. Targeting MAT2A not only restrained cell viability and proliferation, but also contributed to sensitivity of H460/DDP to cisplatin. Furthermore, 4283 up-regulated and 5841 down-regulated genes were detected in H460/DDP compared with H460, and 71 signal pathways were significantly enriched. After treating H460/DDP cells with PF9366, 326 genes were up-regulated, 1093 genes were down-regulated, and 13 signaling pathways were significantly enriched. In TNF signaling pathway, CAS7 and CAS8 were decreased in H460/DDP cells, which increased by PF9366 treatment. 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引用次数: 0

摘要

目的肿瘤耐药是肺癌化疗的重要障碍。蛋氨酸腺苷转移酶2A被认为是肺癌治疗的潜在靶点,因为靶向它可以破坏肺肿瘤起始细胞的致瘤性。在本研究中,我们主要观察了蛋氨酸代谢在顺铂耐药肺癌细胞中的作用以及MAT2A与顺铂耐药相关的功能机制。材料与方法本实验研究通过cell Counting Kit-8检测顺铂对不同细胞系的半数最大抑制浓度(IC50)及细胞活力。Western blotting和定量实时聚合酶链反应(qRT-PCR)检测相关蛋白和基因的表达。结晶紫染色观察细胞增殖情况。此外,我们通过RNA-seq探索了肺癌细胞的转录变化。结果H460/DDP和PC-9细胞对顺铂的耐药程度高于H460, MAT2A在顺铂耐药细胞中过表达。有趣的是,蛋氨酸缺乏增强了顺铂对细胞活性的抑制作用和促凋亡作用。靶向MAT2A不仅能抑制细胞活力和增殖,还能提高H460/DDP对顺铂的敏感性。与H460相比,H460/DDP共检测到4283个上调基因和5841个下调基因,71条信号通路显著富集。用PF9366处理H460/DDP细胞后,326个基因上调,1093个基因下调,13条信号通路显著富集。在TNF信号通路中,H460/DDP细胞中CAS7、CAS8表达降低,PF9366处理后CAS7、CAS8表达升高。最后,在蛋氨酸缺乏条件下,整体组蛋白甲基化(H3K4me3、H3K9me2、H3K27me3、H3K36me3)降低,其中H3K9me2和H3K36me3通过PF9366特异性降低。结论蛋氨酸缺乏或MAT2A抑制可能通过调节组蛋白甲基化调控凋亡、DNA修复和TNF信号通路相关基因的表达,从而促进肺癌细胞对顺铂的敏感性。
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Inhibition of MAT2A-Related Methionine Metabolism Enhances The Efficacy of Cisplatin on Cisplatin-Resistant Cells in Lung Cancer
Objective Tumor drug resistance is a vital obstacle to chemotherapy in lung cancer. Methionine adenosyltransferase 2A has been considered as a potential target for lung cancer treatment because targeting it can disrupt the tumorigenicity of lung tumor-initiating cells. In this study, we primarily observed the role of methionine metabolism in cisplatin-resistant lung cancer cells and the functional mechanism of MAT2A related to cisplatin resistance. Materials and Methods In this experimental study, we assessed the half maximal inhibitory concentration (IC50) of cisplatin in different cell lines and cell viability via Cell Counting Kit-8. Western blotting and quantitative real-time polymerase chain reaction (qRT-PCR) was used to determine the expression of relative proteins and genes. Crystal violet staining was used to investigate cell proliferation. Additionally, we explored the transcriptional changes in lung cancer cells via RNA-seq. Results We found H460/DDP and PC-9 cells were more resistant to cisplatin than H460, and MAT2A was overexpressed in cisplatin-resistant cells. Interestingly, methionine deficiency enhanced the inhibitory effect of cisplatin on cell activity and the pro-apoptotic effect. Targeting MAT2A not only restrained cell viability and proliferation, but also contributed to sensitivity of H460/DDP to cisplatin. Furthermore, 4283 up-regulated and 5841 down-regulated genes were detected in H460/DDP compared with H460, and 71 signal pathways were significantly enriched. After treating H460/DDP cells with PF9366, 326 genes were up-regulated, 1093 genes were down-regulated, and 13 signaling pathways were significantly enriched. In TNF signaling pathway, CAS7 and CAS8 were decreased in H460/DDP cells, which increased by PF9366 treatment. Finally, the global histone methylation (H3K4me3, H3K9me2, H3K27me3, H3K36me3) was reduced under methionine deficiency conditions, while H3K9me2 and H3K36me3 were decreased specially via PF9366. Conclusion Methionine deficiency or MAT2A inhibition may modulate genes expression associated with apoptosis, DNA repair and TNF signaling pathways by regulating histone methylation, thus promoting the sensitivity of lung cancer cells to cisplatin.
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