2020
O-GlcNAc transferase inhibits visceral fat lipolysis and promotes diet-induced obesity
Yang Y, Fu M, Li MD, Zhang K, Zhang B, Wang S, Liu Y, Ni W, Ong Q, Mi J, Yang X. O-GlcNAc transferase inhibits visceral fat lipolysis and promotes diet-induced obesity. Nature Communications 2020, 11: 181. PMID: 31924761, PMCID: PMC6954210, DOI: 10.1038/s41467-019-13914-8.Peer-Reviewed Original ResearchMeSH KeywordsAcetylglucosamineAnimalsCell Line, TumorDietFastingGene DeletionHEK293 CellsHeLa CellsHomeostasisHumansIntra-Abdominal FatLipolysisMaleMiceMice, Inbred C3HMice, Inbred C57BLMice, KnockoutN-AcetylglucosaminyltransferasesObesityPerilipin-1PhosphorylationProtein Processing, Post-TranslationalSignal TransductionConceptsDiet-induced obesityVisceral fatExcessive visceral fat accumulationPerilipin 1Visceral fat accumulationVisceral fat lossTreatment of obesityPrimary risk factorAdipose tissue homeostasisUnhealthy obesityRisk factorsEnhanced lipolysisInhibits lipolysisFat accumulationO-GlcNAcylationFat lossObesityFat lipolysisRelated diseasesLipolysisInducible deletionLipid dropletsHexosamine biosynthetic pathwayFatTissue homeostasis
2019
O-GlcNAcase targets pyruvate kinase M2 to regulate tumor growth
Singh JP, Qian K, Lee JS, Zhou J, Han X, Zhang B, Ong Q, Ni W, Jiang M, Ruan HB, Li MD, Zhang K, Ding Z, Lee P, Singh K, Wu J, Herzog RI, Kaech S, Wendel HG, Yates JR, Han W, Sherwin RS, Nie Y, Yang X. O-GlcNAcase targets pyruvate kinase M2 to regulate tumor growth. Oncogene 2019, 39: 560-573. PMID: 31501520, PMCID: PMC7107572, DOI: 10.1038/s41388-019-0975-3.Peer-Reviewed Original ResearchMeSH KeywordsAcetylationAcetylglucosamineAnimalsAntigens, NeoplasmCarrier ProteinsCell Line, TumorDatasets as TopicDisease ProgressionFemaleGene Expression ProfilingGlycolysisHEK293 CellsHistone AcetyltransferasesHumansHyaluronoglucosaminidaseMaleMembrane ProteinsMiceN-AcetylglucosaminyltransferasesNeoplasm GradingNeoplasm StagingNeoplasmsProtein Processing, Post-TranslationalThyroid HormonesTissue Array AnalysisUp-RegulationXenograft Model Antitumor AssaysConceptsPyruvate kinase M2O-GlcNAcaseAerobic glycolysisO-GlcNAcylationKinase M2Lysine acetyltransferase activityTumor growthMetabolic rheostatAcetyltransferase activityGlcNAc transferaseMolecular basisMetabolic shiftHuman cancersGlycolysisCancer cellsHigh glucose conditionsGlucose availabilityTumor progressionGlucose conditionsExquisite controlGrowthRheostatCausative roleTargetEnzyme
2017
Calcium-dependent O-GlcNAc signaling drives liver autophagy in adaptation to starvation
Ruan HB, Ma Y, Torres S, Zhang B, Feriod C, Heck RM, Qian K, Fu M, Li X, Nathanson MH, Bennett AM, Nie Y, Ehrlich BE, Yang X. Calcium-dependent O-GlcNAc signaling drives liver autophagy in adaptation to starvation. Genes & Development 2017, 31: 1655-1665. PMID: 28903979, PMCID: PMC5647936, DOI: 10.1101/gad.305441.117.Peer-Reviewed Original ResearchMeSH KeywordsAdaptation, BiologicalAnimalsAutophagyAutophagy-Related Protein 5Autophagy-Related Protein-1 HomologCalcium SignalingCalcium-Calmodulin-Dependent Protein Kinase Type 2Cells, CulturedGlucagonHEK293 CellsHeLa CellsHumansInositol 1,4,5-Trisphosphate ReceptorsLiverMice, Inbred C57BLN-AcetylglucosaminyltransferasesNutritional Physiological PhenomenaConceptsAMPK-dependent phosphorylationLiver autophagyN-acetylglucosamine transferaseCalmodulin-dependent kinase IICalcium/calmodulin-dependent kinase IIWhole-body homeostasisULK proteinsNutrient homeostasisKinase IICalcium signalingAutophagic fluxGenetic ablationMetabolic adaptationAutophagyStarvationOGTPhosphorylationHomeostasisMouse liverProduction of glucoseKetone bodiesAdaptationSignalingProteinTransferase
2016
Metabolic Regulation of Gene Expression by Histone Lysine β-Hydroxybutyrylation
Xie Z, Zhang D, Chung D, Tang Z, Huang H, Dai L, Qi S, Li J, Colak G, Chen Y, Xia C, Peng C, Ruan H, Kirkey M, Wang D, Jensen LM, Kwon OK, Lee S, Pletcher SD, Tan M, Lombard DB, White KP, Zhao H, Li J, Roeder RG, Yang X, Zhao Y. Metabolic Regulation of Gene Expression by Histone Lysine β-Hydroxybutyrylation. Molecular Cell 2016, 62: 194-206. PMID: 27105115, PMCID: PMC5540445, DOI: 10.1016/j.molcel.2016.03.036.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBinding SitesChromatin Assembly and DisassemblyDiabetic KetoacidosisDisease Models, AnimalEnergy MetabolismEpigenesis, GeneticFatty AcidsGene Expression RegulationGlucoseHEK293 CellsHistonesHumansHydroxybutyratesLiverLysineMice, Inbred C57BLPromoter Regions, GeneticProtein Processing, Post-TranslationalStarvationStreptozocinConceptsLysine β-hydroxybutyrylationΒ-hydroxybutyrylationActive gene promotersEpigenetic regulatory marksRNA-seq analysisHistone acetylation sitesChromatin regulationHistone marksChIP-seqAcetylation sitesProtein modificationGene promoterRegulatory marksDiverse functionsGene expressionMetabolic regulationMetabolic pathwaysCultured cellsPathophysiological statesRegulationExpressionNew avenuesKbhbMarksGenes
2012
O-GlcNAc Transferase/Host Cell Factor C1 Complex Regulates Gluconeogenesis by Modulating PGC-1α Stability
Ruan HB, Han X, Li MD, Singh JP, Qian K, Azarhoush S, Zhao L, Bennett AM, Samuel VT, Wu J, Yates JR, Yang X. O-GlcNAc Transferase/Host Cell Factor C1 Complex Regulates Gluconeogenesis by Modulating PGC-1α Stability. Cell Metabolism 2012, 16: 226-237. PMID: 22883232, PMCID: PMC3480732, DOI: 10.1016/j.cmet.2012.07.006.Peer-Reviewed Original ResearchMeSH KeywordsAnalysis of VarianceAnimalsBlotting, WesternChromatin ImmunoprecipitationChromatography, High Pressure LiquidGluconeogenesisHeat-Shock ProteinsHEK293 CellsHep G2 CellsHost Cell Factor C1HumansHyperglycemiaImmunoprecipitationLiverMiceMice, Inbred C57BLMultiprotein ComplexesN-AcetylglucosaminyltransferasesPeroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alphaProteomicsReal-Time Polymerase Chain ReactionTandem Mass SpectrometryTranscription FactorsConceptsHCF-1O-GlcNAcylationPGC-1αHost cell factor C1Hexosamine biosynthetic pathwayN-acetylglucosamine (O-GlcNAc) modificationDeubiquitinase BAP1Proteomic approachGlcNAc transferasePosttranslational modificationsNuclear proteinsBiosynthetic pathwayMaster regulatorKey regulatorFactor C1C1 complexOGTGlucose availabilityRegulatorProteinGluconeogenesisHepatic gluconeogenesisGlucose homeostasisComplexesHepatic knockdown