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MCUb is an inducible regulator of calcium-dependent mitochondrial metabolism and substrate utilization in muscle

Jiuzhou Huo, Vikram Prasad, Kelly M. Grimes, Davy Vanhoutte, N. Scott Blair, Suh‐Chin J. Lin, Michael J. Bround, Donald M. Bers, Jeffery D. Molkentin

2023Cell Reports28 citationsDOIOpen Access PDF

Abstract

Mitochondria use the electron transport chain to generate high-energy phosphate from oxidative phosphorylation, a process also regulated by the mitochondrial Ca 2+ uniporter (MCU) and Ca 2+ levels. Here, we show that MCUb, an inhibitor of MCU-mediated Ca 2+ influx, is induced by caloric restriction, where it increases mitochondrial fatty acid utilization. To mimic the fasted state with reduced mitochondrial Ca 2+ influx, we generated genetically altered mice with skeletal muscle-specific MCUb expression that showed greater fatty acid usage, less fat accumulation, and lower body weight. In contrast, mice lacking Mcub in skeletal muscle showed increased pyruvate dehydrogenase activity, increased muscle malonyl coenzyme A (CoA), reduced fatty acid utilization, glucose intolerance, and increased adiposity. Mechanistically, pyruvate dehydrogenase kinase 4 (PDK4) overexpression in muscle of Mcub-deleted mice abolished altered substrate preference. Thus, MCUb is an inducible control point in regulating skeletal muscle mitochondrial Ca 2+ levels and substrate utilization that impacts total metabolic balance.

Topics & Concepts

PDK4Pyruvate dehydrogenase complexOxidative phosphorylationSkeletal muscleMitochondrionBeta oxidationBiochemistryBiologyFatty acidPyruvate dehydrogenase kinaseInternal medicineEndocrinologyChemistryCell biologyEnzymeMedicineMitochondrial Function and PathologyAdipose Tissue and MetabolismBiochemical Acid Research Studies
MCUb is an inducible regulator of calcium-dependent mitochondrial metabolism and substrate utilization in muscle | Litcius