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Mitochondrial membrane potential regulates nuclear DNA methylation and gene expression through phospholipid remodeling.
bioRxiv 2024 January 14
UNLABELLED: Maintenance of the mitochondrial inner membrane potential (ΔΨM) is critical for many aspects of mitochondrial function, including mitochondrial protein import and ion homeostasis. While ΔΨM loss and its consequences are well studied, little is known about the effects of increased ΔΨM. In this study, we used cells deleted of ATPIF1 , a natural inhibitor of the hydrolytic activity of the ATP synthase, as a genetic model of mitochondrial hyperpolarization. Our data show that chronic ΔΨM increase leads to nuclear DNA hypermethylation, regulating transcription of mitochondria, carbohydrate and lipid metabolism genes. Surprisingly, remodeling of phospholipids, but not metabolites or redox changes, mechanistically links the ΔΨM to the epigenome. These changes were also observed upon chemical exposures and reversed by decreasing the ΔΨM, highlighting them as hallmark adaptations to chronic mitochondrial hyperpolarization. Our results reveal the ΔΨM as the upstream signal conveying the mitochondrial status to the epigenome to regulate cellular biology, providing a new framework for how mitochondria can influence health outcomes in the absence of canonical dysfunction.
HIGHLIGHTS: Mitochondria hyperpolarization leads to nuclear DNA hypermethylationDNA methylation regulates expression of mitochondrial and lipid metabolism genesPhospholipid remodeling mediates the epigenetic effects of mitochondrial hyperpolarization.
HIGHLIGHTS: Mitochondria hyperpolarization leads to nuclear DNA hypermethylationDNA methylation regulates expression of mitochondrial and lipid metabolism genesPhospholipid remodeling mediates the epigenetic effects of mitochondrial hyperpolarization.
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