2024
Glucose Regulation of β-Cell KATP Channels: It Is Time for a New Model!
Merrins M, Kibbey R. Glucose Regulation of β-Cell KATP Channels: It Is Time for a New Model! Diabetes 2024, 73: 856-863. PMID: 38768366, PMCID: PMC11109790, DOI: 10.2337/dbi23-0032.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAnimalsGlucoseGlycolysisHumansInsulinInsulin SecretionInsulin-Secreting CellsKATP ChannelsModels, BiologicalOxidative PhosphorylationConceptsB-cell metabolismInsulin secretionEfficiency of mitochondrial ATP productionModel of glucose-stimulated insulin secretionGlucose-stimulated insulin secretionMitochondrial ATP productionNADPH productionGenetic evidenceInitial insulin secretionATP productionGlycolytic enzymesOXPHOSPyruvate kinaseATP/ADP ratioHealthy B cellsKATP channel closureB cellsDiabetes pathophysiologyGlycolysisStoichiometric yieldKATP channelsBioenergeticsATP/ADPMembrane depolarizationMetabolism
2023
Loss of ZNF148 enhances insulin secretion in human pancreatic β cells
de Klerk E, Xiao Y, Emfinger C, Keller M, Berrios D, Loconte V, Ekman A, White K, Cardone R, Kibbey R, Attie A, Hebrok M. Loss of ZNF148 enhances insulin secretion in human pancreatic β cells. JCI Insight 2023, 8: e157572. PMID: 37288664, PMCID: PMC10393241, DOI: 10.1172/jci.insight.157572.Peer-Reviewed Original ResearchMeSH KeywordsDNA-Binding ProteinsExocytosisGlucoseHumansInsulinInsulin SecretionInsulin-Secreting CellsTranscription FactorsConceptsPancreatic β-cellsΒ-cellsSC-β cellsHuman pancreatic β-cellsInsulin secretionHuman β-cellsVesicle traffickingGenetic regulatorsStem cell-derived β cellsDirect repressionS100 genesCells identifiesZNF148Annexin A2Tetrameric complexCell membraneNovel therapeutic targetNovel therapeutic strategiesHuman isletsRegulatorTherapeutic targetCellsS100A16 expressionGlucose homeostasisTherapeutic strategies
2022
Biomarkers of autoimmunity and beta cell metabolism in type 1 diabetes
Yang M, Kibbey R, Mamula M. Biomarkers of autoimmunity and beta cell metabolism in type 1 diabetes. Frontiers In Immunology 2022, 13: 1028130. PMID: 36389721, PMCID: PMC9647083, DOI: 10.3389/fimmu.2022.1028130.Peer-Reviewed Original ResearchMeSH KeywordsAutoimmune DiseasesAutoimmunityBiomarkersDiabetes Mellitus, Type 1HumansInsulin-Secreting CellsConceptsPosttranslational protein modificationMetabolic pathwaysType 1 diabetesCellular metabolic pathwaysImportant biological functionsAutoimmune diseasesBeta cellsCellular metabolic dysfunctionPancreatic isletsProtein modificationBiological functionsProtein structureInsulin-producing beta cellsBiomarkers of autoimmunityChronic autoimmune diseaseCell metabolismBeta-cell metabolismNumerous autoimmune diseasesPancreatic beta cellsPotential pathological consequencesNormal metabolic pathwaysDisease activityPathological consequencesSpecific autoantigensSpecific autoimmunityβ Cell–specific deletion of Zfp148 improves nutrient-stimulated β cell Ca2+ responses
Emfinger CH, de Klerk E, Schueler KL, Rabaglia ME, Stapleton DS, Simonett SP, Mitok KA, Wang Z, Liu X, Paulo JA, Yu Q, Cardone RL, Foster HR, Lewandowski SL, Perales JC, Kendziorski CM, Gygi SP, Kibbey RG, Keller MP, Hebrok M, Merrins MJ, Attie AD. β Cell–specific deletion of Zfp148 improves nutrient-stimulated β cell Ca2+ responses. JCI Insight 2022, 7: e154198. PMID: 35603790, PMCID: PMC9220824, DOI: 10.1172/jci.insight.154198.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCalciumDNA-Binding ProteinsGlucoseGlutamineInsulin-Secreting CellsIslets of LangerhansMiceNutrientsTranscription FactorsConceptsCell-specific deletionΒ-cell Ca2Insulin secretionAmino acid metabolismLow glucose conditionsRNA-seqPancreatic β-cellsLevels of enzymesZfp148Glutamate dehydrogenaseIntermediary metabolismChannel closureEnhanced insulin secretionWestern-style dietControl mice fedElevated glucose levelsAcid metabolismΒ-cellsCell functionGlucose toleranceCell Ca2Elevated sensitivityGlucose conditionsMetabolic challengesMice fed
2017
Pathogenesis of hypothyroidism-induced NAFLD is driven by intra- and extrahepatic mechanisms
Ferrandino G, Kaspari RR, Spadaro O, Reyna-Neyra A, Perry RJ, Cardone R, Kibbey RG, Shulman GI, Dixit VD, Carrasco N. Pathogenesis of hypothyroidism-induced NAFLD is driven by intra- and extrahepatic mechanisms. Proceedings Of The National Academy Of Sciences Of The United States Of America 2017, 114: e9172-e9180. PMID: 29073114, PMCID: PMC5664516, DOI: 10.1073/pnas.1707797114.Peer-Reviewed Original ResearchConceptsNonalcoholic fatty liver diseaseDe novo lipogenesisAdipose tissue lipolysisHepatic insulin resistanceThyroid hormonesHypothyroid miceImpaired suppressionInsulin resistanceTissue lipolysisInsulin secretionHigh thyroid-stimulating hormone levelsRegulation of THThyroid-stimulating hormone levelsLipid utilizationFatty liver diseaseSerum glucose levelsEndogenous glucose productionLow thyroid hormoneFatty acidsHepatic lipid utilizationLiver diseaseSevere hypothyroidismHormone levelsProfound suppressionGlucose levels