2022
BMPR1A promotes ID2–ZEB1 interaction to suppress excessive endothelial to mesenchymal transition
Lee H, Adachi T, Pak B, Park S, Hu X, Choi W, Kowalski PS, Chang CH, Clapham KR, Lee A, Papangeli I, Kim J, Han O, Park J, Anderson DG, Simons M, Jin S, Chun HJ. BMPR1A promotes ID2–ZEB1 interaction to suppress excessive endothelial to mesenchymal transition. Cardiovascular Research 2022, 119: 813-825. PMID: 36166408, PMCID: PMC10409893, DOI: 10.1093/cvr/cvac159.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBone Morphogenetic Protein Receptors, Type IEndothelial CellsEndotheliumEpithelial-Mesenchymal TransitionHypertension, PulmonaryInhibitor of Differentiation Protein 2LungMicePulmonary Arterial HypertensionReceptor, Transforming Growth Factor-beta Type IIZinc Finger E-box-Binding Homeobox 1ConceptsPathogenesis of PAHPulmonary arterial hypertensionEndothelial cellsOnset of PAHAmeliorate pulmonary arterial hypertensionPotential novel therapeutic targetType 1 receptorType 2 receptorEndothelial-mesenchymal transitionNovel therapeutic targetGrowth factor-beta stimulationSmooth muscle cellsBone morphogenetic proteinPAH patientsArterial hypertensionVascular disordersBMP type 1 receptorsResponse of ECsAdult miceEndoMTTherapeutic targetBeta stimulationPathogenesisMesenchymal transitionMuscle cells
2020
Endotheliopathy in COVID-19-associated coagulopathy: evidence from a single-centre, cross-sectional study
Goshua G, Pine AB, Meizlish ML, Chang CH, Zhang H, Bahel P, Baluha A, Bar N, Bona RD, Burns AJ, Dela Cruz CS, Dumont A, Halene S, Hwa J, Koff J, Menninger H, Neparidze N, Price C, Siner JM, Tormey C, Rinder HM, Chun HJ, Lee AI. Endotheliopathy in COVID-19-associated coagulopathy: evidence from a single-centre, cross-sectional study. The Lancet Haematology 2020, 7: e575-e582. PMID: 32619411, PMCID: PMC7326446, DOI: 10.1016/s2352-3026(20)30216-7.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overBetacoronavirusBiomarkersBlood Coagulation DisordersCoronavirus InfectionsCOVID-19Critical IllnessCross-Sectional StudiesEndothelium, VascularFemaleFollow-Up StudiesHumansIntensive Care UnitsMaleMiddle AgedPandemicsPneumonia, ViralPrognosisSARS-CoV-2Vascular DiseasesYoung AdultConceptsCOVID-19-associated coagulopathyNon-ICU patientsIntensive care unitKaplan-Meier analysisSoluble P-selectinCross-sectional studyPlatelet activationHospital dischargeICU patientsSoluble thrombomodulinEndothelial cellsVWF antigenCOVID-19P-selectinSingle-center cross-sectional studyLaboratory-confirmed COVID-19Medical intensive care unitSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pathogenesisVon Willebrand factor antigenSoluble thrombomodulin concentrationsVWF antigen concentrationEndothelial cell injurySoluble CD40 ligandMicrovascular complicationsAdult patients
2017
Endothelial APLNR regulates tissue fatty acid uptake and is essential for apelin’s glucose-lowering effects
Hwangbo C, Wu J, Papangeli I, Adachi T, Sharma B, Park S, Zhao L, Ju H, Go GW, Cui G, Inayathullah M, Job JK, Rajadas J, Kwei SL, Li MO, Morrison AR, Quertermous T, Mani A, Red-Horse K, Chun HJ. Endothelial APLNR regulates tissue fatty acid uptake and is essential for apelin’s glucose-lowering effects. Science Translational Medicine 2017, 9 PMID: 28904225, PMCID: PMC5703224, DOI: 10.1126/scitranslmed.aad4000.Peer-Reviewed Original ResearchConceptsGlucose-lowering effectImpaired glucose utilizationForkhead box protein O1Glucose utilizationType 2 diabetes mellitusEndothelial cellsApelin/APLNRSkeletal muscleTissue fatty acid uptakeType 2 diabetesImportant clinical challengeFatty acid uptakeEndothelial-specific deletionBox protein O1FABP4 inhibitionCardiovascular outcomesPeptide apelinDiabetes mellitusGlucose loweringFatty acidsInsulin sensitivityEndothelial expressionClinical challengeFABP4 expressionMetabolic disorders
2013
Apelin-APJ Signaling Is a Critical Regulator of Endothelial MEF2 Activation in Cardiovascular Development
Kang Y, Kim J, Anderson JP, Wu J, Gleim SR, Kundu RK, McLean DL, Kim JD, Park H, Jin SW, Hwa J, Quertermous T, Chun HJ. Apelin-APJ Signaling Is a Critical Regulator of Endothelial MEF2 Activation in Cardiovascular Development. Circulation Research 2013, 113: 22-31. PMID: 23603510, PMCID: PMC3739451, DOI: 10.1161/circresaha.113.301324.Peer-Reviewed Original ResearchMeSH KeywordsActive Transport, Cell NucleusAdipokinesAnimalsApelinApelin ReceptorsCardiovascular AbnormalitiesCardiovascular SystemEndocardiumEndothelium, VascularFemaleFetal HeartGene Expression Regulation, DevelopmentalGenes, LethalGTP-Binding Protein alpha Subunits, G12-G13Histone DeacetylasesIntercellular Signaling Peptides and ProteinsKruppel-Like Transcription FactorsMaleMEF2 Transcription FactorsMiceMice, Inbred C57BLMice, KnockoutMyogenic Regulatory FactorsPhosphorylationProtein Processing, Post-TranslationalReceptors, G-Protein-CoupledSignal TransductionTranscription, GeneticConceptsCardiovascular developmentVentricular wall developmentMyocyte enhancer factor 2Embryonic lethal phenotypeCardiovascular developmental defectsFactor 2Apelin-APJHistone deacetylase 4MEF2 functionModel organismsLethal phenotypeEmbryonic lethalityTranscriptional targetsMEF2 activationKrüppel-like factor 2Wall developmentHDAC5 phosphorylationCushion formationNuclear localizationVascular smooth muscle cellsEndothelial cellsDevelopmental defectsMolecular mechanismsCritical regulatorLigand apelin
2012
An endothelial apelin-FGF link mediated by miR-424 and miR-503 is disrupted in pulmonary arterial hypertension
Kim J, Kang Y, Kojima Y, Lighthouse JK, Hu X, Aldred MA, McLean DL, Park H, Comhair SA, Greif DM, Erzurum SC, Chun HJ. An endothelial apelin-FGF link mediated by miR-424 and miR-503 is disrupted in pulmonary arterial hypertension. Nature Medicine 2012, 19: 74-82. PMID: 23263626, PMCID: PMC3540168, DOI: 10.1038/nm.3040.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApelinCell MovementCell ProliferationCells, CulturedCulture Media, ConditionedDown-RegulationEndothelial CellsFamilial Primary Pulmonary HypertensionFibroblast Growth Factor 2HumansHypertension, PulmonaryIntercellular Signaling Peptides and ProteinsMiceMice, Inbred C57BLMice, KnockoutMicroRNAsMuscle, Smooth, VascularMyocytes, Smooth MusclePulmonary ArteryRatsReceptor, Fibroblast Growth Factor, Type 1RNA InterferenceRNA, Small InterferingSignal TransductionVascular DiseasesConceptsPulmonary arterial hypertensionArterial hypertensionVascular smooth muscle cellsPulmonary endothelial cellsSmooth muscle cellsEndothelial cell proliferationPulmonary hypertensionPeptide apelinCytokine productionRat modelVascular homeostasisHypertensionMiR-503MiR-424Endothelial cellsCell proliferation