Ribosome肿瘤细胞的生物发生和核糖体治疗

Q3 Pharmacology, Toxicology and Pharmaceutics

Research Results in Pharmacology Pub Date : 2022-10-05 DOI:10.3897/rrpharmacology.8.81706

G. Temaj, R. Hadziselimovic, H. Nefic, N. Nuhii

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引用次数: 1

摘要

蛋白质合成的过程是所有生命王国的重要过程。核糖体是一种核糖核蛋白复合物，它读取遗传密码，从信使RNA (mRNA)产生蛋白质，并严格调节和确保细胞生长。许多疾病都是由核糖体生物发生过程中的缺陷引起的，这对理解这一途径具有重要意义。材料和方法:我们对已发现的核糖体生物发生及其与不同疾病的联系进行了文献分析。结果和讨论:我们讨论了人类核糖体生物发生的关键方面及其与疾病的联系。我们还提出了将这些知识应用于基于核糖体应激的癌症治疗的发展的潜力。结论:确定在核糖体生物发生过程中起关键作用的因素将是未来研究的主要挑战。因此，未来将有更多针对核糖体生物发生的抗癌药物和遗传性疾病的基因治疗被开发出来。图形化的简介:

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Ribosome biogenesis and ribosome therapy in cancer cells

Introduction: The process of protein synthesis is a vital process for all kingdoms of life. The ribosome is a ribonucleoprotein complex that reads the genetic code, from messenger RNA (mRNA) to produce proteins and to tightly regulate and ensure cells growth. The fact that numerous diseases are caused by defect during the ribosome biogenesis is important to understand this pathway. Materials and methods: We have analyzed the literature for ribosome biogenesis and its links with different diseases which have been found. Results and discussion: We have discussed the key aspect of human ribosome biogenesis and its links to diseases. We have also proposed the potential of applying this knowledge to the development of a ribosomal stress-based cancer therapy. Conclusion: Major challenges in the future will be to determine factors which play a pivotal role during ribosome biogenesis. Therefore, more anti-cancer drugs and gene therapy for genetic diseases will be developed against ribosomal biogenesis in the coming years. Graphical abstract:

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