2012
Caveolae, Fenestrae and Transendothelial Channels Retain PV1 on the Surface of Endothelial Cells
Tkachenko E, Tse D, Sideleva O, Deharvengt SJ, Luciano MR, Xu Y, McGarry CL, Chidlow J, Pilch PF, Sessa WC, Toomre DK, Stan RV. Caveolae, Fenestrae and Transendothelial Channels Retain PV1 on the Surface of Endothelial Cells. PLOS ONE 2012, 7: e32655. PMID: 22403691, PMCID: PMC3293851, DOI: 10.1371/journal.pone.0032655.Peer-Reviewed Original ResearchConceptsFormation of diaphragmsRemoval of caveolaeDynamin-independent pathwayAbsence of caveolaeEndothelial cellsProtein levelsCellular rolesCavin-1Knockout phenotypesPlasma membraneCaveolin-1CaveolaeLung endothelial cellsCell surfaceRapid internalizationInternalization rateAbundance of structuresMice resultsTransendothelial channelsEssential componentOnly roleFenestral diaphragmsCellsClathrinTranscription
2006
Lymphocyte transcellular migration occurs through recruitment of endothelial ICAM-1 to caveola- and F-actin-rich domains
Millán J, Hewlett L, Glyn M, Toomre D, Clark P, Ridley AJ. Lymphocyte transcellular migration occurs through recruitment of endothelial ICAM-1 to caveola- and F-actin-rich domains. Nature Cell Biology 2006, 8: 113-123. PMID: 16429128, DOI: 10.1038/ncb1356.Peer-Reviewed Original ResearchMeSH KeywordsActinsAntibodies, MonoclonalCaveolaeCaveolin 1Cell AdhesionCell MembraneCell MovementCell Surface ExtensionsCells, CulturedEndothelial CellsE-SelectinHumansIntercellular Adhesion Molecule-1Lymphocyte ActivationLymphocytesMicroscopy, Electron, TransmissionMicroscopy, FluorescenceProtein TransportReceptor AggregationRNA, Small InterferingStress FibersT-LymphocytesTransfectionTumor Necrosis Factor-alphaVascular Cell Adhesion Molecule-1