2015
Endothelial-to-mesenchymal transition drives atherosclerosis progression
Chen PY, Qin L, Baeyens N, Li G, Afolabi T, Budatha M, Tellides G, Schwartz MA, Simons M. Endothelial-to-mesenchymal transition drives atherosclerosis progression. Journal Of Clinical Investigation 2015, 125: 4514-4528. PMID: 26517696, PMCID: PMC4665771, DOI: 10.1172/jci82719.Peer-Reviewed Original ResearchConceptsProgression of atherosclerosisTGF-β signalingFGF receptor 1Left main coronary arteryMesenchymal transitionFGFR1 expressionDevelopment of EndMTMain coronary arteryTotal plaque burdenHigh-fat dietCultured human endothelial cellsDouble knockout miceEndothelial-specific deletionEarly time pointsCoronary atherosclerosisCoronary diseaseHuman endothelial cellsAtherosclerosis progressionPlaque burdenAtherosclerotic miceCoronary arteryInflammatory cytokinesAtherosclerotic lesionsNeointima formationClinical relevance
2009
Mechanotransduction in vascular physiology and atherogenesis
Hahn C, Schwartz MA. Mechanotransduction in vascular physiology and atherogenesis. Nature Reviews Molecular Cell Biology 2009, 10: 53-62. PMID: 19197332, PMCID: PMC2719300, DOI: 10.1038/nrm2596.Peer-Reviewed Original ResearchConceptsImportant regulatory factorEndothelial extracellular matrixBiochemical signalsGene expressionBlood pressureRegulatory factorsCellular responsesRegions of arteriesFluid shear stressBlood flowExtracellular matrixPhysiological responsesProgression of atherosclerosisSystemic risk factorsNormal physiological responseMechanical forcesChronic inflammationPhysiologyVascular physiologyRisk factorsHigh cholesterolVascular endotheliumAtherosclerosisBlood vesselsCells