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- Title
Depletion of mitochondrial methionine adenosyltransferase α1 triggers mitochondrial dysfunction in alcohol-associated liver disease.
- Authors
Barbier-Torres, Lucía; Murray, Ben; Yang, Jin Won; Wang, Jiaohong; Matsuda, Michitaka; Robinson, Aaron; Binek, Aleksandra; Fan, Wei; Fernández-Ramos, David; Lopitz-Otsoa, Fernando; Luque-Urbano, Maria; Millet, Oscar; Mavila, Nirmala; Peng, Hui; Ramani, Komal; Gottlieb, Roberta; Sun, Zhaoli; Liangpunsakul, Suthat; Seki, Ekihiro; Van Eyk, Jennifer E.
- Abstract
MATα1 catalyzes the synthesis of S-adenosylmethionine, the principal biological methyl donor. Lower MATα1 activity and mitochondrial dysfunction occur in alcohol-associated liver disease. Besides cytosol and nucleus, MATα1 also targets the mitochondria of hepatocytes to regulate their function. Here, we show that mitochondrial MATα1 is selectively depleted in alcohol-associated liver disease through a mechanism that involves the isomerase PIN1 and the kinase CK2. Alcohol activates CK2, which phosphorylates MATα1 at Ser114 facilitating interaction with PIN1, thereby inhibiting its mitochondrial localization. Blocking PIN1-MATα1 interaction increased mitochondrial MATα1 levels and protected against alcohol-induced mitochondrial dysfunction and fat accumulation. Normally, MATα1 interacts with mitochondrial proteins involved in TCA cycle, oxidative phosphorylation, and fatty acid β-oxidation. Preserving mitochondrial MATα1 content correlates with higher methylation and expression of mitochondrial proteins. Our study demonstrates a role of CK2 and PIN1 in reducing mitochondrial MATα1 content leading to mitochondrial dysfunction in alcohol-associated liver disease. Lower activity of MATα1, which catalyzes the synthesis of the methyl donor S-adenosylmethionine, and mitochondrial dysfunction occur in alcohol-associated liver disease (ALD). Here the authors report that the peptidyl-prolyl cis/trans isomerase PIN1 mediates a selective depletion of MATα1 in the mitochondria, which contributes to mitochondrial dysfunction and fat accumulation, in mouse models of ALD.
- Subjects
ISOMERASES; LIVER diseases; MITOCHONDRIA; MITOCHONDRIAL proteins; METHIONINE; OXIDATIVE phosphorylation
- Publication
Nature Communications, 2022, Vol 13, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-022-28201-2