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UbiB proteins regulate cellular CoQ distribution in Saccharomyces cerevisiae

Zachary A. Kemmerer, Kyle Robinson, Jonathan M. Schmitz, Mateusz Manicki, Brett R. Paulson, Adam Jochem, Paul D. Hutchins, Joshua J. Coon, David J. Pagliarini

2021Nature Communications46 citationsDOIOpen Access PDF

Abstract

Beyond its role in mitochondrial bioenergetics, Coenzyme Q (CoQ, ubiquinone) serves as a key membrane-embedded antioxidant throughout the cell. However, how CoQ is mobilized from its site of synthesis on the inner mitochondrial membrane to other sites of action remains a longstanding mystery. Here, using a combination of Saccharomyces cerevisiae genetics, biochemical fractionation, and lipid profiling, we identify two highly conserved but poorly characterized mitochondrial proteins, Ypl109c (Cqd1) and Ylr253w (Cqd2), that reciprocally affect this process. Loss of Cqd1 skews cellular CoQ distribution away from mitochondria, resulting in markedly enhanced resistance to oxidative stress caused by exogenous polyunsaturated fatty acids, whereas loss of Cqd2 promotes the opposite effects. The activities of both proteins rely on their atypical kinase/ATPase domains, which they share with Coq8-an essential auxiliary protein for CoQ biosynthesis. Overall, our results reveal protein machinery central to CoQ trafficking in yeast and lend insights into the broader interplay between mitochondria and the rest of the cell.

Topics & Concepts

Saccharomyces cerevisiaeMitochondrionInner mitochondrial membraneBiochemistryBiologyCell biologyCoenzyme Q – cytochrome c reductaseCoenzyme Q10YeastBioenergeticsOxidative phosphorylationCytochrome cCoenzyme Q10 studies and effectsMitochondrial Function and PathologyAdvanced battery technologies research
UbiB proteins regulate cellular CoQ distribution in Saccharomyces cerevisiae | Litcius