Influence of RNA Methylation on Cancerous Cells: A Prospective Approach for Alteration of In Vivo Cellular Composition.

4区 医学 Q2 Biochemistry, Genetics and Molecular Biology Advances in experimental medicine and biology Pub Date : 2024-09-12 DOI:10.1007/5584_2024_820
Manali Rupareliya, Pravin Shende
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Abstract

RNA methylation is a dynamic and ubiquitous post-transcriptional modification that plays a pivotal role in regulating gene expression in various conditions like cancer, neurological disorders, cardiovascular diseases, viral infections, metabolic disorders, and autoimmune diseases. RNA methylation manifests across diverse RNA species including messenger RNA (mRNA), ribosomal RNA (rRNA), and transfer RNA (tRNA), exerting pivotal roles in gene expression regulation and various biological phenomena. Aberrant activity of writer, eraser, and reader proteins enables dysregulated methylation landscape across diverse malignancy transcriptomes, frequently promoting cancer pathogenesis. Numerous oncogenic drivers, tumour suppressors, invasion/metastasis factors, and signalling cascade components undergo methylation changes that modulate respective mRNA stability, translation, splicing, transport, and protein-RNA interactions accordingly. Functional studies confirm methylation-dependent alterations drive proliferation, survival, motility, angiogenesis, stemness, metabolism, and therapeutic evasion programs systemically. Methyltransferase overexpression typifies certain breast, liver, gastric, and other carcinomas correlating with adverse clinical outcomes like diminished overall survival. Mapping efforts uncover nodal transcripts for targeted drug development against hyperactivated regulators including METTL3. Some erasers and readers also suitable lead candidates based on apparent synthetic lethality. Proteomic screens additionally highlight relevant methylation-sensitive effector pathways amenable to combinatorial blockade, reversing compensatory signalling mechanisms that facilitate solid tumour progression. Quantifying global methylation burdens and responsible enzymes clinically predicts patient prognosis, risk stratification for adjuvant therapy, and overall therapeutic responsiveness.

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RNA 甲基化对癌细胞的影响:改变体内细胞组成的前瞻性方法
RNA 甲基化是一种动态的、无处不在的转录后修饰,在调节癌症、神经系统疾病、心血管疾病、病毒感染、代谢紊乱和自身免疫性疾病等各种疾病的基因表达方面发挥着关键作用。RNA 甲基化表现在多种 RNA 上,包括信使 RNA(mRNA)、核糖体 RNA(rRNA)和转运 RNA(tRNA),在基因表达调控和各种生物现象中发挥着关键作用。书写蛋白、擦除蛋白和阅读蛋白的异常活动导致各种恶性肿瘤转录组的甲基化景观失调,经常促进癌症的发病。许多致癌驱动因子、肿瘤抑制因子、侵袭/转移因子和信号级联成分都会发生甲基化变化,从而相应地调节各自的 mRNA 稳定性、翻译、剪接、转运和蛋白质-RNA 相互作用。功能性研究证实,甲基化依赖性改变驱动着增殖、存活、运动、血管生成、干性、新陈代谢以及系统性的治疗规避程序。甲基转移酶过度表达是某些乳腺癌、肝癌、胃癌和其他癌症的典型特征,与总体生存率降低等不良临床结果相关。制图工作发现了节点转录本,可针对包括 METTL3 在内的超活化调节因子进行靶向药物开发。根据明显的合成致死性,一些侵蚀者和阅读者也是合适的候选先导药物。蛋白质组筛查还突出了相关的甲基化敏感效应通路,这些通路可以进行组合阻断,逆转促进实体瘤进展的代偿信号机制。量化全球甲基化负担和责任酶可在临床上预测病人的预后、辅助治疗的风险分层以及总体治疗反应性。
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来源期刊
Advances in experimental medicine and biology
Advances in experimental medicine and biology 医学-医学:研究与实验
CiteScore
5.90
自引率
0.00%
发文量
465
审稿时长
2-4 weeks
期刊介绍: Advances in Experimental Medicine and Biology provides a platform for scientific contributions in the main disciplines of the biomedicine and the life sciences. This series publishes thematic volumes on contemporary research in the areas of microbiology, immunology, neurosciences, biochemistry, biomedical engineering, genetics, physiology, and cancer research. Covering emerging topics and techniques in basic and clinical science, it brings together clinicians and researchers from various fields.
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