2022
Distinct subcellular localisation of intramyocellular lipids and reduced PKCε/PKCθ activity preserve muscle insulin sensitivity in exercise-trained mice
Gaspar R, Lyu K, Hubbard B, Leitner B, Luukkonen P, Hirabara S, Sakuma I, Nasiri A, Zhang D, Kahn M, Cline G, Pauli J, Perry R, Petersen K, Shulman G. Distinct subcellular localisation of intramyocellular lipids and reduced PKCε/PKCθ activity preserve muscle insulin sensitivity in exercise-trained mice. Diabetologia 2022, 66: 567-578. PMID: 36456864, PMCID: PMC11194860, DOI: 10.1007/s00125-022-05838-8.Peer-Reviewed Original ResearchConceptsProtein kinase CsSubcellular compartmentsDistinct subcellular localisationMuscle insulin sensitivityMultiple subcellular compartmentsInsulin receptor kinaseNovel protein kinase CsActivation of PKCεSubcellular localisationPKCθ translocationReceptor kinasePlasma membraneSubcellular distributionTriacylglycerol contentCrucial pathwaysIntramuscular triacylglycerol contentRC miceDiacylglycerolConclusions/interpretationThese resultsPKCεPM compartmentPhosphorylationMuscle triacylglycerol contentSkeletal muscleRecent findings
2001
Stimulating Effects of Low-Dose Fructose on Insulin-Stimulated Hepatic Glycogen Synthesis in Humans
Petersen K, Laurent D, Yu C, Cline G, Shulman G. Stimulating Effects of Low-Dose Fructose on Insulin-Stimulated Hepatic Glycogen Synthesis in Humans. Diabetes 2001, 50: 1263-1268. PMID: 11375325, DOI: 10.2337/diabetes.50.6.1263.Peer-Reviewed Original ResearchConceptsNet hepatic glycogen synthesisHepatic glycogen synthesisGlycogen synthesisSynthase fluxInfusion of fructoseLow-dose infusionType 2 diabetesEuglycemic hyperinsulinemic conditionsPotential therapeutic valueHepatic glycogen metabolismThreefold increaseFructose studiesEuglycemic hyperinsulinemiaHyperinsulinemic conditionsFructose infusionControl studyTherapeutic valueInfusionType 1Glucokinase activityGlycogen metabolismIndirect pathwaysStimulating effectInsulinStimulationContribution of net hepatic glycogen synthesis to disposal of an oral glucose load in humans
Petersen K, Cline G, Gerard D, Magnusson I, Rothman D, Shulman G. Contribution of net hepatic glycogen synthesis to disposal of an oral glucose load in humans. Metabolism 2001, 50: 598-601. PMID: 11319724, DOI: 10.1053/meta.2001.22561.Peer-Reviewed Original ResearchConceptsHepatic glycogen synthesisOral glucose loadGlucose loadMagnetic resonance imagingLiver glycogen synthesisNet hepatic glycogen synthesisLiver volumeGlycogen synthesisWhole-body glucose disposalGlycogen contentHepatic glycogen concentrationIngestion of glucoseLiver glycogen contentHepatic glycogen contentIdentical glucose loadHepatic UDP-glucoseGlucose disposalGroup 2Group 1Direct pathwayResonance imagingGlycogen concentrationMean maximum rateLiverIngestion
2000
Mechanism of muscle glycogen autoregulation in humans
Laurent D, Hundal R, Dresner A, Price T, Vogel S, Petersen K, Shulman G. Mechanism of muscle glycogen autoregulation in humans. AJP Endocrinology And Metabolism 2000, 278: e663-e668. PMID: 10751200, DOI: 10.1152/ajpendo.2000.278.4.e663.Peer-Reviewed Original ResearchConceptsInsulin-stimulated ratesWhole body glucose oxidation ratesMuscle glycogenGlycogen loadingPlasma free fatty acid concentrationsWhole-body glucose uptakeFree fatty acid concentrationsMuscle glycogen contentGlucose oxidation ratesMuscle glycogen synthesisPlasma lactate concentrationTwofold increaseHyperinsulinemic clampGlycogen synthase activityFatty acid concentrationsLoading protocolGlucose infusionHealthy volunteersLactate concentrationGlycogen contentGlucose uptakeAnaerobic glycolysisGlycogen synthesisUnlabeled glucose infusionGlycogen
1999
Impaired Glucose Transport as a Cause of Decreased Insulin-Stimulated Muscle Glycogen Synthesis in Type 2 Diabetes
Cline G, Petersen K, Krssak M, Shen J, Hundal R, Trajanoski Z, Inzucchi S, Dresner A, Rothman D, Shulman G. Impaired Glucose Transport as a Cause of Decreased Insulin-Stimulated Muscle Glycogen Synthesis in Type 2 Diabetes. New England Journal Of Medicine 1999, 341: 240-246. PMID: 10413736, DOI: 10.1056/nejm199907223410404.Peer-Reviewed Original ResearchConceptsMuscle glycogen synthesisType 2 diabetes mellitusConcentrations of insulinNormal subjectsDiabetes mellitusGlucose metabolismGlycogen synthesisGlucose concentrationWhole-body glucose metabolismInsulin-stimulated muscle glycogen synthesisIntracellular glucose concentrationType 2 diabetesPlasma insulin concentrationGlucose transportImpaired glucose transportInterstitial fluid glucose concentrationsOpen-flow microperfusionIntramuscular glucoseInterstitial fluidGlucose-6-phosphate concentrationInsulin resistanceVivo microdialysisInsulin concentrationsHyperinsulinemic conditionsPatientsEffects of free fatty acids on glucose transport and IRS-1–associated phosphatidylinositol 3-kinase activity
Dresner A, Laurent D, Marcucci M, Griffin M, Dufour S, Cline G, Slezak L, Andersen D, Hundal R, Rothman D, Petersen K, Shulman G. Effects of free fatty acids on glucose transport and IRS-1–associated phosphatidylinositol 3-kinase activity. Journal Of Clinical Investigation 1999, 103: 253-259. PMID: 9916137, PMCID: PMC407880, DOI: 10.1172/jci5001.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultFatty Acids, NonesterifiedFemaleGlucoseGlucose Clamp TechniqueGlucose-6-PhosphateGlycerolGlycogenHumansHyperinsulinismInsulinInsulin Receptor Substrate ProteinsInsulin ResistanceLipid MetabolismMagnetic Resonance SpectroscopyMaleMuscle, SkeletalPhosphatidylinositol 3-KinasesPhosphoproteinsConceptsFree fatty acidsIRS-1-associated phosphatidylinositolLipid infusionInsulin resistanceGlycerol infusionPlasma free fatty acidsWhole-body glucose uptakeFive-hour infusionLipid/heparinHyperinsulinemic-euglycemic clampGlucose concentrationGlucose transportMuscle glycogen synthesisDiminished glucose transportMuscle biopsy samplesHuman skeletal muscleRate of insulinGlucose-6-phosphate concentrationFatty acidsHealthy subjectsBiopsy samplesInfusion studiesIdentical protocolInfusionIRS-1-associated PI
1998
Effect of epinephrine on muscle glycogenolysis and insulin-stimulated muscle glycogen synthesis in humans
Laurent D, Petersen K, Russell R, Cline G, Shulman G. Effect of epinephrine on muscle glycogenolysis and insulin-stimulated muscle glycogen synthesis in humans. American Journal Of Physiology 1998, 274: e130-e138. PMID: 9458758, DOI: 10.1152/ajpendo.1998.274.1.e130.Peer-Reviewed Original ResearchConceptsInsulin-stimulated muscle glycogen synthesisMuscle glycogen synthesisMuscle glycogenolysisEpinephrine infusionPhysiological increaseWhole-body glucose oxidationMuscle glycogen synthesis ratesPlasma epinephrine concentrationEuglycemic hyperinsulinemic clampGlucose infusion rateEffect of epinephrineGlycogen synthesisInsulin-stimulated glycogenesisBasal insulinControl subjectsPlasma glucoseEpinephrine concentrationsFree fatty acidsBasal valuesInfusion rateGlycogen synthesis rateMuscle glycogenEpinephrineGlycogenolysisMajor impairment
1997
Effects of insulin-like growth factor I on glucose metabolism in rats with liver cirrhosis
Petersen K, Jacob R, West A, Sherwin R, Shulman G. Effects of insulin-like growth factor I on glucose metabolism in rats with liver cirrhosis. American Journal Of Physiology 1997, 273: e1189-e1193. PMID: 9435535, DOI: 10.1152/ajpendo.1997.273.6.e1189.Peer-Reviewed Original ResearchConceptsMuscle glycogen synthesisInsulin-like growth factor ICirrhotic ratsGrowth factor IGlucose metabolismLiver cirrhosisGlycogen synthesisFactor IInsulin-stimulated muscle glycogen synthesisIGF-I therapyPeripheral glucose metabolismWhole-body glucose turnoverEndogenous glucose productionAbility of IGFEuglycemic clampInsulin resistanceControl ratsAwake ratsCirrhosisDiminished suppressionControl groupIGFRatsGlucose productionGlucose turnoverNew insulins and other possible therapeutic approaches
Johannesen J, Petersen K, Berger M, Binder C. New insulins and other possible therapeutic approaches. Diabetologia 1997, 40: b89. PMID: 9345654, DOI: 10.1007/bf03168195.Peer-Reviewed Original Research