2024
Skeletal muscle TET3 promotes insulin resistance through destabilisation of PGC-1α
Liu B, Xie D, Huang X, Jin S, Dai Y, Sun X, Li D, Bennett A, Diano S, Huang Y. Skeletal muscle TET3 promotes insulin resistance through destabilisation of PGC-1α. Diabetologia 2024, 67: 724-737. PMID: 38216792, PMCID: PMC10904493, DOI: 10.1007/s00125-023-06073-5.Peer-Reviewed Original ResearchConceptsTen-eleven translocationMuscle insulin sensitivityRNA-seqPGC-1aRegulation of muscle insulin sensitivityType 2 diabetesAnalysis of RNA-seqResponse to environmental cuesGenome-wide expression profilingWild-typeHFD-fedHFD-induced insulin resistanceHigh-fat diet (HFD)-inducedExpression levelsMaintenance of glucoseSkeletal muscle insulin sensitivityAccession numbersSkeletal muscleEnhanced glucose toleranceFamily dioxygenasesMitochondrial respirationSkeletal muscle of humansEnvironmental cuesMitochondrial functionBiological processes
2016
UCP2 Regulates Mitochondrial Fission and Ventromedial Nucleus Control of Glucose Responsiveness
Toda C, Kim JD, Impellizzeri D, Cuzzocrea S, Liu ZW, Diano S. UCP2 Regulates Mitochondrial Fission and Ventromedial Nucleus Control of Glucose Responsiveness. Cell 2016, 164: 872-883. PMID: 26919426, PMCID: PMC4770556, DOI: 10.1016/j.cell.2016.02.010.Peer-Reviewed Original ResearchConceptsSystemic glucose homeostasisMitochondrial fissionCellular biological processesMitochondrial dynamicsGenetic manipulationGlucose homeostasisReactive oxygen speciesBiological processesMitochondrial adaptationsProtein 2Reduced reactive oxygen speciesOxygen speciesHomeostasisCritical roleMetabolic environmentGlucose-excited neuronsGlucose responsivenessFissionNeuronal circuitrySpeciesNeuronsRegulationVMH neuronsGlucose loadPool