生物
癌症
线粒体DNA
可塑性
线粒体
遗传学
癌症研究
糖酵解
计算生物学
生物信息学
代谢途径
能量代谢
DNA
DNA损伤
自噬
代谢活性
疾病
基因组
医学
神经科学
作者
Ersong Shang,Omar Aftab,Abbienaya Dayanamby,Laura C. Greaves
标识
DOI:10.1016/j.molmed.2026.02.003
摘要
Mitochondria, once viewed mainly as cellular powerhouses, are now recognised as key regulators of cancer metabolism, redox balance, and immune interactions. While early models emphasised a switch to aerobic glycolysis, many tumours exhibit metabolic plasticity and retain oxidative phosphorylation capacity. Mitochondrial DNA (mtDNA) mutations are common across cancers, yet their roles in carcinogenesis and therapy response remain unclear. Emerging base-editing technologies now enable modelling of these mutations, allowing the exploration of their impact on tumourigenesis, which may differ depending on mutation type, heteroplasmy, and tissue origin. mtDNA alterations also shape immune responses within the tumour microenvironment and therefore may influence treatment sensitivity. This review integrates recent advances on mtDNA's role in cancer biology and explores therapeutic opportunities for targeting mitochondrial metabolism.
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