2004
Molecular and biological effects of hemodynamics on vascular cells.
Pradhan S, Sumpio B. Molecular and biological effects of hemodynamics on vascular cells. Frontiers In Bioscience-Landmark 2004, 9: 3276-85. PMID: 15353357, DOI: 10.2741/1480.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAtherosclerosisCell MovementCell ProliferationCells, CulturedCyclic AMPDiglyceridesDisease ProgressionEndothelial CellsExtracellular MatrixHemodynamicsHumansInositol 1,4,5-TrisphosphateIntercellular Adhesion Molecule-1Plasminogen ActivatorsProtein Kinase CRisk FactorsStress, MechanicalConceptsEndothelial cellsSignificant atherosclerotic plaqueSystemic risk factorsTissue plasminogen activatorCellular adhesion moleculesCurrent pertinent literatureCultured endothelial cellsRisk factorsSecond messenger systemsSignificant lesionsProtein kinase C pathwayICAM-1Atherosclerosis formationAtherosclerotic plaquesVascular anatomyKinase C pathwayNitric oxideVascular cellsPlasminogen activatorAdhesion moleculesBlood vesselsVascular biologyMessenger systemsVessel wallPertinent literature
1997
Exposure of endothelial cells to cyclic strain induces elevations of cytosolic Ca2+ concentration through mobilization of intracellular and extracellular pools
ROSALES O, ISALES C, BARRETT P, BROPHY C, SUMPIO B. Exposure of endothelial cells to cyclic strain induces elevations of cytosolic Ca2+ concentration through mobilization of intracellular and extracellular pools. Biochemical Journal 1997, 326: 385-392. PMID: 9291109, PMCID: PMC1218682, DOI: 10.1042/bj3260385.Peer-Reviewed Original ResearchConceptsMicroM GdCl3Endothelial cellsIP3 formationLate-phase componentsInitiation of stretchExtracellular poolConfluent bovine aortic endothelial cellsMobilization of intracellularAortic endothelial cellsBovine aortic endothelial cellsNM charybdotoxinCycles/minIP3 generationIntracellular Ca2Sustained phaseCytosolic Ca2Confluent endothelial cellsBenzohydroquinoneFree mediumTemporal relationshipMicroM NiCl2Ca2PreincubationCellsInitial rise
1993
Phospholipase C: A Putative Mechanotransducer for Endothelial Cell Response to Acute Hemodynamic Changes
Brophy CM, Mills I, Rosales O, Isales C, Sumpio BE. Phospholipase C: A Putative Mechanotransducer for Endothelial Cell Response to Acute Hemodynamic Changes. Biochemical And Biophysical Research Communications 1993, 190: 576-581. PMID: 8427600, DOI: 10.1006/bbrc.1993.1087.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAorta, ThoracicBiomechanical PhenomenaCattleEndothelium, VascularHemodynamicsInositol 1,4,5-TrisphosphateMechanoreceptorsSignal TransductionType C PhospholipasesConceptsEndothelial cellsAcute hemodynamic changesPhospholipase C activationHemodynamic changesProduction of inositolAcute decreaseAcute increaseIP3 generationEndothelial cell responsesCell responsesIP3 productionPutative mechanotransducersTransient increaseSpecific signal transduction pathwaysOngoing studiesCardiac cycleC activationSignal transduction pathwaysTransduction pathways
1992
Changes in cyclic strain increase inositol trisphosphate and diacylglycerol in endothelial cells
Rosales OR, Sumpio BE. Changes in cyclic strain increase inositol trisphosphate and diacylglycerol in endothelial cells. American Journal Of Physiology 1992, 262: c956-c962. PMID: 1566821, DOI: 10.1152/ajpcell.1992.262.4.c956.Peer-Reviewed Original ResearchAnimalsCells, CulturedDiglyceridesEndothelium, VascularInositol 1,4,5-TrisphosphateInositol PhosphatesPeriodicityStress, Mechanical