2021
Vascular Mechanobiology: Homeostasis, Adaptation, and Disease
Humphrey JD, Schwartz MA. Vascular Mechanobiology: Homeostasis, Adaptation, and Disease. Annual Review Of Biomedical Engineering 2021, 23: 1-27. PMID: 34255994, PMCID: PMC8719655, DOI: 10.1146/annurev-bioeng-092419-060810.Peer-Reviewed Original ResearchConceptsArterial healthDisease progressionVascular wallTherapeutic needsHealthy vesselsHomeostatic mechanismsDiseaseVessel wallHomeostatic pathwaysPositive feedback loopWall mechanicsHomeostasisGene expressionOptimal functionMajor diseasesNegative feedback loopRegulatory pathwaysInflammationBiochemical meansArtery
2020
Endothelial-to-Mesenchymal Transition, Vascular Inflammation, and Atherosclerosis
Chen PY, Schwartz MA, Simons M. Endothelial-to-Mesenchymal Transition, Vascular Inflammation, and Atherosclerosis. Frontiers In Cardiovascular Medicine 2020, 7: 53. PMID: 32478094, PMCID: PMC7232582, DOI: 10.3389/fcvm.2020.00053.Peer-Reviewed Original ResearchVascular inflammationMesenchymal transitionBiology of atherosclerosisPotential new therapeutic targetChronic progressive diseaseNew therapeutic targetsSelective inflammatory mediatorsProgressive diseaseInflammatory mediatorsAtherosclerotic plaquesBlood flowTherapeutic targetPlaque growthInflammationAtherosclerosisMultiple attemptsDiseaseMolecular mechanismsEndMTPlaques
2019
Endothelial TGF-β signalling drives vascular inflammation and atherosclerosis
Chen PY, Qin L, Li G, Wang Z, Dahlman JE, Malagon-Lopez J, Gujja S, Cilfone N, Kauffman K, Sun L, Sun H, Zhang X, Aryal B, Canfran-Duque A, Liu R, Kusters P, Sehgal A, Jiao Y, Anderson D, Gulcher J, Fernandez-Hernando C, Lutgens E, Schwartz M, Pober J, Chittenden T, Tellides G, Simons M. Endothelial TGF-β signalling drives vascular inflammation and atherosclerosis. Nature Metabolism 2019, 1: 912-926. PMID: 31572976, PMCID: PMC6767930, DOI: 10.1038/s42255-019-0102-3.Peer-Reviewed Original ResearchConceptsTGF-β signalingVascular inflammationDisease progressionPlaque growthProgressive vascular diseaseVessel wall inflammationChronic inflammatory responseSpecific therapeutic interventionsAtherosclerotic plaque growthHyperlipidemic micePlaque inflammationWall inflammationProinflammatory effectsVascular diseaseInflammatory responseVascular permeabilityAtherosclerotic plaquesAbnormal shear stressTherapeutic interventionsInflammationEndothelial TGFΒ signalingVessel wallAtherosclerosisLipid retentionMechanosensation of cyclical force by PIEZO1 is essential for innate immunity
Solis AG, Bielecki P, Steach HR, Sharma L, Harman CCD, Yun S, de Zoete MR, Warnock JN, To SDF, York AG, Mack M, Schwartz MA, Dela Cruz CS, Palm NW, Jackson R, Flavell RA. Mechanosensation of cyclical force by PIEZO1 is essential for innate immunity. Nature 2019, 573: 69-74. PMID: 31435009, PMCID: PMC6939392, DOI: 10.1038/s41586-019-1485-8.Peer-Reviewed Original ResearchConceptsInnate immune cellsImmune cellsInflammatory responseInnate immune systemCyclical hydrostatic pressurePulmonary inflammationImmune responseImmune systemInnate immunityBacterial infectionsIon channel Piezo1InflammationPhysiological fluctuationsImmunityPhysiological roleLocal microenvironmentCellsPiezo1Direct recognitionResponseAutoinflammationLungInfectionMiceCaveolin-1 Regulates Atherogenesis by Attenuating Low-Density Lipoprotein Transcytosis and Vascular Inflammation Independently of Endothelial Nitric Oxide Synthase Activation
Ramírez CM, Zhang X, Bandyopadhyay C, Rotllan N, Sugiyama MG, Aryal B, Liu X, He S, Kraehling JR, Ulrich V, Lin CS, Velazquez H, Lasunción MA, Li G, Suárez Y, Tellides G, Swirski FK, Lee WL, Schwartz MA, Sessa WC, Fernández-Hernando C. Caveolin-1 Regulates Atherogenesis by Attenuating Low-Density Lipoprotein Transcytosis and Vascular Inflammation Independently of Endothelial Nitric Oxide Synthase Activation. Circulation 2019, 140: 225-239. PMID: 31154825, PMCID: PMC6778687, DOI: 10.1161/circulationaha.118.038571.Peer-Reviewed Original ResearchConceptsEndothelial nitric oxide synthaseDiet-induced atherosclerosisNO productionVascular inflammationENOS activationEndothelial nitric oxide synthase activationNitric oxide synthase activationAthero-protective functionsLipid metabolic factorsEndothelial cell inflammationNitric oxide synthaseWild-type miceMice Lacking ExpressionProduction of NOExtracellular matrix remodelingInflammatory primingHyperlipidemic miceInflammatory pathwaysAortic archCell inflammationOxide synthaseMetabolic factorsMouse modelAtherosclerosisInflammation
2016
Interaction between integrin α5 and PDE4D regulates endothelial inflammatory signalling
Yun S, Budatha M, Dahlman JE, Coon BG, Cameron RT, Langer R, Anderson DG, Baillie G, Schwartz MA. Interaction between integrin α5 and PDE4D regulates endothelial inflammatory signalling. Nature Cell Biology 2016, 18: 1043-1053. PMID: 27595237, PMCID: PMC5301150, DOI: 10.1038/ncb3405.Peer-Reviewed Original ResearchConceptsInflammatory signalingIntegrin α5Enhanced phosphodiesterase activityExtracellular matrix remodellingModulates inflammationTherapeutic targetInflammationProstacyclin secretionLipid metabolismEndothelial cellsMatrix remodellingVivo knockdownECM remodellingBasement membraneIntegrin α2Phosphodiesterase activityMolecular mechanismsRemodellingΑ5Direct bindingSignalingCellsFibronectinAtherosclerosisArtery
2012
The role of p21-activated kinase in the initiation of atherosclerosis
Jhaveri K, Debnath P, Chernoff J, Sanders J, Schwartz M. The role of p21-activated kinase in the initiation of atherosclerosis. BMC Cardiovascular Disorders 2012, 12: 55. PMID: 22824149, PMCID: PMC3489605, DOI: 10.1186/1471-2261-12-55.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAorta, ThoracicAortic DiseasesAtherosclerosisBiomechanical PhenomenaCells, CulturedDisease Models, AnimalEndothelial CellsFibronectinsGalectin 3ImmunohistochemistryInflammation MediatorsIntercellular Adhesion Molecule-1MaleMiceMice, Inbred C57BLMice, KnockoutP21-Activated KinasesRegional Blood FlowTranscription Factor RelBVascular Cell Adhesion Molecule-1ConceptsLesser curvatureNF-κB subunitsInflammatory activationEndothelial cellsAtherosclerosis-prone sitesPro-inflammatory functionsInflammatory marker expressionNormal chow dietArch of aortaInitiation of atherosclerosisInflammatory markersOverall inflammationChow dietInflammatory pathwaysYoung miceAtherosclerosis-susceptible regionsConclusionThese dataICAM-1VCAM-1NF-κBRelA NF-κB subunitMarker expressionLow levelsFibronectin depositionInflammation