2022
Sex‐ and strain‐specific effects of mitochondrial uncoupling on age‐related metabolic diseases in high‐fat diet‐fed mice
Goedeke L, Murt KN, Di Francesco A, Camporez JP, Nasiri AR, Wang Y, Zhang X, Cline GW, de Cabo R, Shulman GI. Sex‐ and strain‐specific effects of mitochondrial uncoupling on age‐related metabolic diseases in high‐fat diet‐fed mice. Aging Cell 2022, 21: e13539. PMID: 35088525, PMCID: PMC8844126, DOI: 10.1111/acel.13539.Peer-Reviewed Original ResearchConceptsControlled-release mitochondrial protonophoreAge-related metabolic diseasesHepatocellular carcinomaMetabolic diseasesHigh-fat diet-fed miceProtein kinase C epsilon activationDiet-induced obese miceWhole-body energy expenditureC57BL/6J male miceDiet-fed miceHigh-fat dietHepatic lipid peroxidationHepatic lipid contentMitochondrial uncouplingHepatic insulin resistanceHigh therapeutic indexHepatic mitochondrial biogenesisStrain-specific effectsSex-specific mannerCRMP treatmentHFD feedingUnwanted side effectsObese miceInsulin resistanceChronic ingestion
2021
Insulin-stimulated endoproteolytic TUG cleavage links energy expenditure with glucose uptake
Habtemichael EN, Li DT, Camporez JP, Westergaard XO, Sales CI, Liu X, López-Giráldez F, DeVries SG, Li H, Ruiz DM, Wang KY, Sayal BS, González Zapata S, Dann P, Brown SN, Hirabara S, Vatner DF, Goedeke L, Philbrick W, Shulman GI, Bogan JS. Insulin-stimulated endoproteolytic TUG cleavage links energy expenditure with glucose uptake. Nature Metabolism 2021, 3: 378-393. PMID: 33686286, PMCID: PMC7990718, DOI: 10.1038/s42255-021-00359-x.Peer-Reviewed Original ResearchConceptsTUG cleavageGlucose uptakeProtein degradation pathwaysGLUT4 glucose transportersCoactivator PGC-1αC-terminal cleavage productInsulin-stimulated glucose uptakeAte1 arginyltransferaseGene expressionPhysiological relevanceWhole-body energy expenditureGlucose transporterPeroxisome proliferator-activated receptorCell surfacePGC-1αProtein 1Proliferator-activated receptorDegradation pathwayEffect of insulinCleavage pathwayAdipose cellsCleavage productsPathwayCleavageEnergy expenditure
2018
Effect of a Controlled-Release Mitochondrial Protonophore (CRMP) on Healthspan and Lifespan in Mice
GOEDEKE L, CAMPOREZ J, NASIRI A, WANG Y, ZHANG X, SHULMAN G. Effect of a Controlled-Release Mitochondrial Protonophore (CRMP) on Healthspan and Lifespan in Mice. Diabetes 2018, 67 DOI: 10.2337/db18-123-lb.Peer-Reviewed Original ResearchControlled-release mitochondrial protonophoreCRMP treatmentHepatic steatosisDiet-induced rodent modelWhole body insulin responsivenessInflammation/fibrosisMale C57BL/6J miceWhole-body energy expenditureHyperinsulinemic-euglycemic clampHigh-fat dietType 2 diabetesGlucose infusion rateMitochondrial protonophorePlasma glucose concentrationWide therapeutic indexStrict dietary regimeSecond-generation compoundsTransaminase levelsFatty liverLiver triglyceridesInsulin resistanceAge-related diseasesC57BL/6J miceHepatic triglyceridesFood intake
2001
In Vivo Effects of Uncoupling Protein-3 Gene Disruption on Mitochondrial Energy Metabolism*
Cline G, Vidal-Puig A, Dufour S, Cadman K, Lowell B, Shulman G. In Vivo Effects of Uncoupling Protein-3 Gene Disruption on Mitochondrial Energy Metabolism*. Journal Of Biological Chemistry 2001, 276: 20240-20244. PMID: 11274222, DOI: 10.1074/jbc.m102540200.Peer-Reviewed Original ResearchConceptsATP synthesisEnergy metabolismSkeletal muscleMitochondrial oxidative phosphorylationMitochondrial energy metabolismGene disruptionRatio of ATPOxidative phosphorylationATP productionTricarboxylic acid cycle fluxWhole-body levelUCP3KO miceWhole-body energy expenditureCellular levelProtein 3Cycle fluxLabeling experimentsFirst evidenceBody energy expenditureMetabolismVivoMeasurement of ratesPhosphorylationEnergy expenditureUCP3