2022
Overexpression of UCP3 decreases mitochondrial efficiency in mouse skeletal muscle in vivo
Codella R, Alves TC, Befroy DE, Choi CS, Luzi L, Rothman DL, Kibbey RG, Shulman GI. Overexpression of UCP3 decreases mitochondrial efficiency in mouse skeletal muscle in vivo. FEBS Letters 2022, 597: 309-319. PMID: 36114012, DOI: 10.1002/1873-3468.14494.Peer-Reviewed Original ResearchConceptsOverexpression of UCP3ATP synthesisMitochondrial oxidationMitochondrial transmembrane proteinInner mitochondrial membraneSkeletal muscleMitochondrial oxidative phosphorylationMitochondrial oxidative metabolismMuscle-specific overexpressionMouse skeletal muscleTransmembrane proteinMitochondrial membraneProton leakPrecise functionOxidative phosphorylationMitochondrial efficiencyUCP3 expressionMitochondrial inefficiencyOverexpressionProtein 3UCP3Oxidative metabolismVivoMagnetic resonance spectroscopyPhosphorylation
2019
Mitochondrial Proton Leak Regulated by Cyclophilin D Elevates Insulin Secretion in Islets at Nonstimulatory Glucose Levels
Taddeo EP, Alsabeeh N, Baghdasarian S, Wikstrom JD, Ritou E, Sereda S, Erion K, Li J, Stiles L, Abdulla M, Swanson Z, Wilhelm J, Bellin MD, Kibbey RG, Liesa M, Shirihai O. Mitochondrial Proton Leak Regulated by Cyclophilin D Elevates Insulin Secretion in Islets at Nonstimulatory Glucose Levels. Diabetes 2019, 69: 131-145. PMID: 31740442, PMCID: PMC6971491, DOI: 10.2337/db19-0379.Peer-Reviewed Original ResearchConceptsType 2 diabetesInsulin secretionInsulin resistanceFree fatty acidsNonesterified free fatty acidsGlucose-stimulated insulin secretionPrediabetic stateInsulin hypersecretionObese subjectsFatty acidsObese miceLean miceGlucose levelsHuman isletsPancreatic isletsΒ-cellsIsletsProton leakSecretionHyperinsulinemiaProgressive increaseDiabetesMiceMitochondrial proton leakLeak
2018
Cyclophilin D-Dependent Mitochondrial Proton Leak in ß Cells Promotes Basal Insulin Secretion
ALSABEEH N, TADDEO E, WIKSTRÖM J, RITOU E, STILES L, KIBBEY R, LIESA M, SHIRIHAI O. Cyclophilin D-Dependent Mitochondrial Proton Leak in ß Cells Promotes Basal Insulin Secretion. Diabetes 2018, 67 DOI: 10.2337/db18-312-lb.Peer-Reviewed Original ResearchMitochondrial proton leakProton leakPermeability transition poreInhibition of CypDBasal hypersecretionCyclophilin DMolecular mechanismsInsulin secretionTransition poreGenetic inhibitionHigh-fat diet animalsAmino acidsDevelopment of diabetesHypersecretion of insulinNovel targetBeta-cell failureBasal insulin secretionBasal hyperinsulinemiaFatty acidsPrediabetic subjectsPrediabetic animalsLow conductance stateBlood glucoseBasal secretionPharmacological stimulation