Misregulation of mitochondrial 6mA promotes the propagation of mutant mtDNA and causes aging in C. elegans

IF 27.7 1区 生物学 Q1 CELL BIOLOGY
Anne Hahn, Grace Ching Ching Hung, Arnaud Ahier, Chuan-Yang Dai, Ina Kirmes, Brian M. Forde, Daniel Campbell, Rachel Shin Yie Lee, Josiah Sucic, Tessa Onraet, Steven Zuryn
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Abstract

In virtually all eukaryotes, the mitochondrial DNA (mtDNA) encodes proteins necessary for oxidative phosphorylation (OXPHOS) and RNAs required for their synthesis. The mechanisms of regulation of mtDNA copy number and expression are not completely understood but crucially ensure the correct stoichiometric assembly of OXPHOS complexes from nuclear- and mtDNA-encoded subunits. Here, we detect adenosine N6-methylation (6mA) on the mtDNA of diverse animal and plant species. This modification is regulated in C. elegans by the DNA methyltransferase DAMT-1 and demethylase ALKB-1. Misregulation of mtDNA 6mA through targeted modulation of these activities inappropriately alters mtDNA copy number and transcript levels, impairing OXPHOS function, elevating oxidative stress, and shortening lifespan. Compounding these defects, mtDNA 6mA hypomethylation promotes the cross-generational propagation of a deleterious mtDNA. Together, these results reveal that mtDNA 6mA is highly conserved among eukaryotes and regulates lifespan by influencing mtDNA copy number, expression, and heritable mutation levels in vivo.

Abstract Image

线粒体 6mA 的调控失误会促进突变 mtDNA 的传播并导致秀丽隐杆线虫的衰老
几乎在所有真核生物中,线粒体 DNA(mtDNA)都编码氧化磷酸化(OXPHOS)所需的蛋白质以及合成这些蛋白质所需的 RNA。mtDNA 拷贝数和表达的调控机制尚未完全清楚,但其关键作用是确保由核和 mtDNA 编码的亚基组成的 OXPHOS 复合物能够正确地按比例组装。在这里,我们检测了不同动物和植物物种 mtDNA 上的腺苷 N6-甲基化(6mA)。在秀丽隐杆线虫体内,这种修饰受 DNA 甲基转移酶 DAMT-1 和去甲基化酶 ALKB-1 的调控。通过有针对性地调节这些活性,对 mtDNA 6mA 进行错误调控,会不适当地改变 mtDNA 的拷贝数和转录本水平,从而损害 OXPHOS 功能、增加氧化应激并缩短寿命。除了这些缺陷外,mtDNA 6mA 低甲基化还促进了有害 mtDNA 的跨代传播。这些结果共同揭示了mtDNA 6mA在真核生物中的高度保守性,并通过影响体内mtDNA拷贝数、表达和可遗传突变水平来调节寿命。
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来源期刊
Cell metabolism
Cell metabolism 生物-内分泌学与代谢
CiteScore
48.60
自引率
1.40%
发文量
173
审稿时长
2.5 months
期刊介绍: Cell Metabolism is a top research journal established in 2005 that focuses on publishing original and impactful papers in the field of metabolic research.It covers a wide range of topics including diabetes, obesity, cardiovascular biology, aging and stress responses, circadian biology, and many others. Cell Metabolism aims to contribute to the advancement of metabolic research by providing a platform for the publication and dissemination of high-quality research and thought-provoking articles.
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