Featured Publications
cSTAR analysis identifies endothelial cell cycle as a key regulator of flow-dependent artery remodeling
Deng H, Rukhlenko O, Joshi D, Hu X, Junk P, Tuliakova A, Kholodenko B, Schwartz M. cSTAR analysis identifies endothelial cell cycle as a key regulator of flow-dependent artery remodeling. Science Advances 2025, 11: eado9970. PMID: 39752487, PMCID: PMC11698091, DOI: 10.1126/sciadv.ado9970.Peer-Reviewed Original ResearchConceptsShear stressCell cycle-dependent kinasesHigh shear stressLow shear stressOscillatory shear stressPhysiological shear stressFluid shear stressCell cycle arrestRegulatory networksTranscriptomic statesResponse to drug treatmentCycle arrestCell cycleEndothelial cell cycleDisease susceptibilityRegulatory mechanismsVessel behaviorCDK2Endothelial cellsIn vitroStressRegulationVascular endothelial cellsRemodelingCells
2024
Endothelial γ-protocadherins inhibit KLF2 and KLF4 to promote atherosclerosis
Joshi D, Coon B, Chakraborty R, Deng H, Yang Z, Babar M, Fernandez-Tussy P, Meredith E, Attanasio J, Joshi N, Traylor J, Orr A, Fernandez-Hernando C, Libreros S, Schwartz M. Endothelial γ-protocadherins inhibit KLF2 and KLF4 to promote atherosclerosis. Nature Cardiovascular Research 2024, 3: 1035-1048. PMID: 39232138, PMCID: PMC11399086, DOI: 10.1038/s44161-024-00522-z.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAtherosclerosisCadherin Related ProteinsCadherinsDisease Models, AnimalEndothelial CellsHuman Umbilical Vein Endothelial CellsHumansKruppel-Like Factor 4Kruppel-Like Transcription FactorsMaleMiceMice, Inbred C57BLMice, KnockoutPlaque, AtheroscleroticReceptors, NotchSignal TransductionConceptsAtherosclerotic cardiovascular diseaseIntracellular domainNotch intracellular domainTranscription factor KLF2Mechanisms of vascular inflammationAnti-inflammatory programVascular endothelial cellsHost defenseCleavage resultsAntibody blockadeGenetic deletionVascular inflammationViral infectionImmune systemEndothelial cellsCardiovascular diseasePromote atherosclerosisBlood flowKLF2KLF4Suppressive signalsEndotheliumMechanistic studies
2022
High Fluid Shear Stress Inhibits Cytokine‐Driven Smad2/3 Activation in Vascular Endothelial Cells
Deng H, Schwartz MA. High Fluid Shear Stress Inhibits Cytokine‐Driven Smad2/3 Activation in Vascular Endothelial Cells. Journal Of The American Heart Association 2022, 11: e025337. PMID: 35861829, PMCID: PMC9707828, DOI: 10.1161/jaha.121.025337.Peer-Reviewed Original ResearchConceptsInflammatory cytokinesSmad2/3 activationEndothelial cellsNuclear translocationInflammatory cytokine treatmentGrowth factor betaVascular endothelial cellsQuantitative polymerase chain reactionSmad2/3 nuclear translocationTarget gene expressionBackground AtherosclerosisInflammatory mediatorsInflammatory pathwaysPolymerase chain reactionResult of inhibitionCytokine treatmentInhibits CytokineFactor betaMesenchymal transitionHigh fluid shear stressCytokinesEndMTGene expressionLaminar fluid shear stressFluid shear stress