线粒体DNA微卫星不稳定性在实体癌中的作用研究综述

A. Yusoff, S. Radzak, S. N. M. Khair
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引用次数: 4

摘要

癌症被广泛认为是一种涉及核DNA和线粒体基因组(mtDNA)突变的遗传性疾病。线粒体是在大多数真核生物中发现的必不可少的生物能量和生物合成机制。因此,它们功能的缺失对肿瘤发生、肿瘤细胞生长和转移至关重要。线粒体失调可能是mtDNA分子改变的结果,如点突变、缺失、倒位、微卫星不稳定性(MSI)和拷贝数变化。这篇综述文章旨在强调已发表的mtDNA改变的研究工作,特别关注线粒体MSI (mtMSI)在各种类型的实体癌症中的变化。在PubMed、Scopus和Google Scholar等数据库中检索了1990年至2021年间发表的关于mtMSI及其与实体癌联系的文章。在这篇综述中,我们简要总结了引起mtMSI形成的可能分子机制的相关知识以及所有主要实体癌类型中mtMSI频率值的现有信息。线粒体基因组的突变被广泛认为对各种癌症有广泛的影响。根据现有的已发表数据,mtMSI可以作为一个重要的危险因素和癌症进展的潜在标志。需要进一步的研究来揭示mtMSI在肿瘤发生中的作用。
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Research highlights on contributions of mitochondrial DNA microsatellite instability in solid cancers – an overview
Cancer has been broadly considered a genetic disease involving mutations in nuclear DNA and the mitochondrial genome (mtDNA). Mitochondria are essential bioenergetics and biosynthetic machinery found in most eukaryotic organisms. Thus, failure of their function is crucial for tumourigenesis, tumour cell growth, and metastasis. Mitochondrial dysregulation can occur as a consequence of molecular alterations in mtDNA, such as point mutations, deletions, inversions, microsatellite instability (MSI), and copy number variations. This review article aims to highlight the published research work on alterations in mtDNA, with a particular focus on mitochondrial MSI (mtMSI) in various types of solid cancers. Databases including PubMed, Scopus, and Google Scholar were searched for articles about mtMSI and its link to solid cancer published from 1990 till 2021. In this review, we briefly summarize the knowledge related to possible molecular mechanisms causing mtMSI formation and the available information on mtMSI frequency values in all main solid cancer types. Mutations in the mitochondrial genome are widely believed to have a broad impact across various cancers. Based on the available published data, mtMSI can act as a vital risk factor and a potential marker for cancer progression. Further research is required to unravel the role of mtMSI in tumourigenesis.
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