2024
High-fat-diet-induced hepatic insulin resistance per se attenuates murine de novo lipogenesis
Goedeke L, Strober J, Suh R, Paolella L, Li X, Rogers J, Petersen M, Nasiri A, Casals G, Kahn M, Cline G, Samuel V, Shulman G, Vatner D. High-fat-diet-induced hepatic insulin resistance per se attenuates murine de novo lipogenesis. IScience 2024, 27: 111175. PMCID: PMC11550620, DOI: 10.1016/j.isci.2024.111175.Peer-Reviewed Original ResearchDuration of high-fat dietAttenuated insulin signalingHigh-fat dietHepatic insulin resistanceInsulin signalingInsulin stimulationLipogenic substrateStimulation of de novo lipogenesisReduced lipogenesisHFD feedingReduce DNLInsulin resistanceResistance per seLipogenesisInsulin resistance per sePathway selectionGlucose metabolismHepatic IRMiceFat dietSREBP1cINSR
2005
Reduced mitochondrial density and increased IRS-1 serine phosphorylation in muscle of insulin-resistant offspring of type 2 diabetic parents
Morino K, Petersen KF, Dufour S, Befroy D, Frattini J, Shatzkes N, Neschen S, White MF, Bilz S, Sono S, Pypaert M, Shulman GI. Reduced mitochondrial density and increased IRS-1 serine phosphorylation in muscle of insulin-resistant offspring of type 2 diabetic parents. Journal Of Clinical Investigation 2005, 115: 3587-3593. PMID: 16284649, PMCID: PMC1280967, DOI: 10.1172/jci25151.Peer-Reviewed Original ResearchMeSH KeywordsBiopsyBlood GlucoseBlotting, WesternBody Mass IndexBody WeightDiabetes Mellitus, Type 2DNA, MitochondrialFamily HealthFemaleGene Expression RegulationGlucose Clamp TechniqueGlucose Tolerance TestHumansHyperinsulinismImmunoprecipitationInsulinInsulin Receptor Substrate ProteinsInsulin ResistanceLipidsMaleMicroscopy, ElectronMicroscopy, Electron, TransmissionMitochondriaMusclesPhosphoproteinsPhosphorylationProtein Serine-Threonine KinasesReverse Transcriptase Polymerase Chain ReactionRNA, MessengerSerineSignal TransductionTime FactorsTranscription, GeneticTriglyceridesConceptsInsulin-resistant offspringIR offspringType 2 diabetesInsulin-stimulated muscle glucose uptakeType 2 diabetic parentsIntramyocellular lipid contentHyperinsulinemic-euglycemic clampMuscle glucose uptakeIRS-1 serine phosphorylationMuscle mitochondrial densityMitochondrial densityMuscle biopsy samplesSerine kinase cascadeInsulin-stimulated Akt activationDiabetic parentsInsulin resistanceControl subjectsBiopsy samplesGlucose uptakeLipid accumulationMitochondrial dysfunctionInsulin signalingAkt activationEarly defectsMuscle
2000
Mechanism of Insulin Resistance in A-ZIP/F-1 Fatless Mice*
Kim J, Gavrilova O, Chen Y, Reitman M, Shulman G. Mechanism of Insulin Resistance in A-ZIP/F-1 Fatless Mice*. Journal Of Biological Chemistry 2000, 275: 8456-8460. PMID: 10722680, DOI: 10.1074/jbc.275.12.8456.Peer-Reviewed Original ResearchConceptsType 2 diabetesInsulin resistanceFatless miceInsulin actionTriglyceride contentA-ZIP/FDevelopment of diabetesLiver triglyceride contentHyperinsulinemic-euglycemic clampAccumulation of triglyceridesMuscle/liverWild-type littermatesInsulin receptor substrate-1Receptor substrate-1Partitioning of fatSubsequent impairmentDiabetesFat metabolismMiceFat tissueLiverInsulin signalingMuscleLatter tissueSubstrate-1
1998
Disruption of IRS-2 causes type 2 diabetes in mice
Withers D, Gutierrez J, Towery H, Burks D, Ren J, Previs S, Zhang Y, Bernal D, Pons S, Shulman G, Bonner-Weir S, White M. Disruption of IRS-2 causes type 2 diabetes in mice. Nature 1998, 391: 900-904. PMID: 9495343, DOI: 10.1038/36116.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBlood GlucoseCloning, MolecularDiabetes Mellitus, Type 2FemaleGene TargetingHumansInsulinInsulin Receptor Substrate ProteinsInsulin ResistanceIntracellular Signaling Peptides and ProteinsIslets of LangerhansLiverMaleMiceMice, Inbred C57BLMuscle, SkeletalPhosphatidylinositol 3-KinasesPhosphoproteinsPhosphorylationReceptor, InsulinRecombination, GeneticSignal TransductionConceptsType 2 diabetesInsulin resistanceHuman type 2 diabetesPancreatic β-cell functionInsulin secretion increasesSingle molecular abnormalityΒ-cell compensationIRS-2-deficient miceΒ-cell functionHuman type 2Insulin secretionInsulin receptor substrateGlucose homeostasisSecretion increasesInsulin actionType 2DiabetesMolecular abnormalitiesProgressive deteriorationSkeletal muscleIRS-2Insulin signalingIRS-1Mild resistanceMice