2024
Cytosolic calcium regulates hepatic mitochondrial oxidation, intrahepatic lipolysis, and gluconeogenesis via CAMKII activation
LaMoia T, Hubbard B, Guerra M, Nasiri A, Sakuma I, Kahn M, Zhang D, Goodman R, Nathanson M, Sancak Y, Perelis M, Mootha V, Shulman G. Cytosolic calcium regulates hepatic mitochondrial oxidation, intrahepatic lipolysis, and gluconeogenesis via CAMKII activation. Cell Metabolism 2024, 36: 2329-2340.e4. PMID: 39153480, PMCID: PMC11446666, DOI: 10.1016/j.cmet.2024.07.016.Peer-Reviewed Original Research
2021
Isthmin-1 is an adipokine that promotes glucose uptake and improves glucose tolerance and hepatic steatosis
Jiang Z, Zhao M, Voilquin L, Jung Y, Aikio MA, Sahai T, Dou FY, Roche AM, Carcamo-Orive I, Knowles JW, Wabitsch M, Appel EA, Maikawa CL, Camporez JP, Shulman GI, Tsai L, Rosen ED, Gardner CD, Spiegelman BM, Svensson KJ. Isthmin-1 is an adipokine that promotes glucose uptake and improves glucose tolerance and hepatic steatosis. Cell Metabolism 2021, 33: 1836-1852.e11. PMID: 34348115, PMCID: PMC8429235, DOI: 10.1016/j.cmet.2021.07.010.Peer-Reviewed Original ResearchConceptsFatty liver diseaseAdipose glucose uptakeGlucose toleranceLiver diseaseHepatic steatosisGlucose uptakeDiet-induced obese miceImpaired glucose toleranceInsulin-like growth factor receptorType 2 diabetesHepatic lipid synthesisIsthmin 1Growth factor receptorObese miceInsulin sensitivityTherapeutic dosingMouse modelGlucoregulatory functionGlucose regulationUnmet needTherapeutic potentialDiabetesLipid accumulationPI3K-AktFactor receptorPublisher Correction: Deletion of the diabetes candidate gene Slc16a13 in mice attenuates diet-induced ectopic lipid accumulation and insulin resistance
Schumann T, König J, von Loeffelholz C, Vatner DF, Zhang D, Perry RJ, Bernier M, Chami J, Henke C, Kurzbach A, El-Agroudy NN, Willmes DM, Pesta D, de Cabo R, O´Sullivan J, Simon E, Shulman GI, Hamilton BS, Birkenfeld AL. Publisher Correction: Deletion of the diabetes candidate gene Slc16a13 in mice attenuates diet-induced ectopic lipid accumulation and insulin resistance. Communications Biology 2021, 4: 890. PMID: 34262128, PMCID: PMC8280181, DOI: 10.1038/s42003-021-02425-2.Peer-Reviewed Original ResearchDeletion of the diabetes candidate gene Slc16a13 in mice attenuates diet-induced ectopic lipid accumulation and insulin resistance
Schumann T, König J, von Loeffelholz C, Vatner DF, Zhang D, Perry RJ, Bernier M, Chami J, Henke C, Kurzbach A, El-Agroudy NN, Willmes DM, Pesta D, de Cabo R, O´Sullivan J, Simon E, Shulman GI, Hamilton BS, Birkenfeld AL. Deletion of the diabetes candidate gene Slc16a13 in mice attenuates diet-induced ectopic lipid accumulation and insulin resistance. Communications Biology 2021, 4: 826. PMID: 34211098, PMCID: PMC8249653, DOI: 10.1038/s42003-021-02279-8.Peer-Reviewed Original ResearchMeSH KeywordsAMP-Activated Protein KinasesAnimalsDiabetes Mellitus, Type 2Diet, High-FatGene ExpressionGenetic Predisposition to DiseaseHumansInsulin ResistanceLipid MetabolismLiverMice, Inbred C57BLMice, KnockoutMitochondriaMonocarboxylic Acid TransportersNon-alcoholic Fatty Liver DiseaseObesityOxygen ConsumptionConceptsMitochondrial respirationGenome-wide association studiesNovel susceptibility genesLipid accumulationPlasma membraneAMPK activationAssociation studiesPhysiological functionsEctopic lipid accumulationReduced hepatic lipid accumulationSusceptibility genesLactate transporterMonocarboxylate transportersPotential targetGenesTransportersDeletionLipid contentHepatic lipid accumulationPotential importanceKnockout miceRespirationHepatic insulin sensitivityMCT13Accumulation
2020
OGT suppresses S6K1-mediated macrophage inflammation and metabolic disturbance
Yang Y, Li X, Luan HH, Zhang B, Zhang K, Nam JH, Li Z, Fu M, Munk A, Zhang D, Wang S, Liu Y, Albuquerque JP, Ong Q, Li R, Wang Q, Robert ME, Perry RJ, Chung D, Shulman GI, Yang X. OGT suppresses S6K1-mediated macrophage inflammation and metabolic disturbance. Proceedings Of The National Academy Of Sciences Of The United States Of America 2020, 117: 16616-16625. PMID: 32601203, PMCID: PMC7368321, DOI: 10.1073/pnas.1916121117.Peer-Reviewed Original ResearchConceptsRibosomal protein S6 kinase beta-1Macrophage proinflammatory activationGlcNAc signalingProinflammatory activationUnexpected roleWhole-body metabolismNutrient fluxesLipid accumulationImmune cell activationGlcNAcHomeostatic mechanismsMetabolic disturbancesBeta 1Cell activationDiet-induced metabolic dysfunctionDiet-induced obese miceActivationWhole-body insulin resistanceMacrophage inflammationGlcNAcylationOGTPeripheral tissuesPhosphorylationEnhanced inflammationInsulin resistance
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