about
PV1 is a key structural component for the formation of the stomatal and fenestral diaphragmsIsolation, cloning, and localization of rat PV-1, a novel endothelial caveolar proteinGenetic evidence supporting caveolae microdomain regulation of calcium entry in endothelial cellsIntersectin regulates fission and internalization of caveolae in endothelial cells.PV-1 is a component of the fenestral and stomatal diaphragms in fenestrated endotheliaStructure of caveolae.Caveolae, fenestrae and transendothelial channels retain PV1 on the surface of endothelial cells.Cells respond to mechanical stress by rapid disassembly of caveolae.Structure and function of endothelial caveolae.Vascular gene expression in nonneoplastic and malignant brain.Caveolin regulation of endothelial function.Mutations in Plasmalemma Vesicle Associated Protein Result in Sieving Protein-Losing Enteropathy Characterized by Hypoproteinemia, Hypoalbuminemia, and HypertriglyceridemiaEndothelial targeting of polymeric nanoparticles stably labeled with the PET imaging radioisotope iodine-124.Antibody GD3G7 selected against embryonic glycosaminoglycans defines chondroitin sulfate-E domains highly up-regulated in ovarian cancer and involved in vascular endothelial growth factor binding.An updated h-index measures both the primary and total scientific output of a researcher.PV1 down-regulation via shRNA inhibits the growth of pancreatic adenocarcinoma xenografts.Endocytosis of soluble immune complexes leads to their clearance by FcγRIIIB but induces neutrophil extracellular traps via FcγRIIA in vivo.VEGFR2 pY949 signalling regulates adherens junction integrity and metastatic spread.Resolved: capillary endothelium is a major contributor to the glomerular filtration barrier.Mast cells impair the development of protective anti-tumor immunity.Depletion of dendritic cells delays ovarian cancer progression by boosting antitumor immunity.Endothelial Plasmalemma Vesicle-Associated Protein Regulates the Homeostasis of Splenic Immature B Cells and B-1 B Cells.Epithelial cell integrin β1 is required for developmental angiogenesis in the pituitary gland.Morphological heterogeneity of endothelium.Uncoupling Caveolae From Intracellular Signaling In Vivo.Plasmalemmal vesicle associated protein (PV1) modulates SV40 virus infectivity in CV-1 cells.HS3ST1 genotype regulates antithrombin's inflammomodulatory tone and associates with atherosclerosis.Tumor endothelial marker imaging in melanomas using dual-tracer fluorescence molecular imaging.Caveolin-1 interacts directly with dynamin-2.Transducible TAT-HA fusogenic peptide enhances escape of TAT-fusion proteins after lipid raft macropinocytosis.Targeting superoxide dismutase to endothelial caveolae profoundly alleviates inflammation caused by endotoxin.Growth Differentiation Factor 6 Promotes Vascular Stability by Restraining Vascular Endothelial Growth Factor Signaling.Ascending Vasa Recta Are Angiopoietin/Tie2-Dependent Lymphatic-Like Vessels.INF2-mediated actin polymerization at the ER stimulates mitochondrial calcium uptake, inner membrane constriction, and division.‘Caveolae’ Review Series.Spatially controlled assembly of affinity ligand and enzyme cargo enables targeting ferritin nanocarriers to caveolaeEndocytosis pathways in endothelium: how many?Phorbol esters induce PLVAP expression via VEGF and additional secreted molecules in MEK1-dependent and p38, JNK and PI3K/Akt-independent mannerLymph node conduits transport virions for rapid T cell activationFlexible Nanoparticles Reach Sterically Obscured Endothelial Targets Inaccessible to Rigid Nanoparticles
P50
Q24293773-5CB9BC93-6FB3-470D-9A2C-0E8951633390Q24682131-7BEE0EB5-4FC6-4584-B35C-DD0F11578334Q28590838-833C5D27-573E-4D7A-B982-1F6849C1E730Q30164523-C63BCA36-7B9F-4CAA-AE16-42EB2D3E9637Q30810995-F1E89F68-06DC-4FB3-A324-4DCC24188280Q33224886-56DD2DDB-3835-4ED9-ADAA-817199A086F1Q34189613-24DCB53E-2566-4257-987F-EB3BE4FBF0F9Q34588611-E135E839-FAFC-41FA-BCD2-58C69684CBA7Q34733332-9A021E23-3494-40B9-810F-EDE78C4E5343Q35103013-8C56E9C2-9517-471E-9AE6-AA56FA9F7A33Q35578698-16933555-C66F-48A8-85BA-FE971504735DQ35710172-BB82487D-29C8-4845-AED7-DD88E817EC5DQ35973379-C5EE7A7E-BE46-4389-AA44-35BB615A843CQ36007478-335D2229-5B49-44DF-96F8-D34987F5A7FFQ36199005-5C2CC4C5-0BC2-4ECE-A051-A5606BC04C86Q36213620-D0FD964E-7273-46AB-87B3-60CE42851FFCQ36425452-741247C5-3F39-4E8E-BBF2-2ACF23548F68Q36747249-636C23B2-6295-4553-B3A5-E70B58939770Q36921162-65532B87-F22A-4F55-8B03-FD6F9BE4744DQ37254993-92A8AB79-AAA3-4A61-991C-C333B6BD3AA5Q37342848-D8D0BF19-96C5-49E6-BE4E-F1E6AF9E962EQ37432784-4756E669-C68F-4C6B-8349-2F9386797030Q37451170-44BCAADF-AE9C-4A7C-8561-A7ACF199FDCCQ37758570-AD1EBFE3-352D-426E-8367-9963AD0C6C9BQ38254908-B1C75C81-183E-4606-904D-B3D761E65095Q38389286-328BB492-C717-4786-9561-AD72D6843410Q38996741-AD97D253-ED61-497E-B357-A9A55FD9D166Q39444594-6A90F109-FC86-44DD-9F53-96FE5ADFB47FQ40438684-BEE71100-EA7B-46F8-8420-E15481EC0553Q40591045-C476EC15-05FB-4706-857C-00AFF540ACA1Q47240067-D2AA9730-7FB8-4D10-A937-33CB6A937DCFQ47248903-D18DAB1B-C1E8-4D57-B816-1FF1BABB9E56Q47296548-C5894FF3-A059-4ACD-9464-612D2E7CEAFAQ48297251-B5D97EE6-77D3-4E8C-B265-C0920EB939FEQ54918559-E4B2D922-AB6B-4081-8E3C-1497FEA63BF0Q57112003-F2880264-71C3-4026-B743-B6AABFDECE41Q57374695-2601D087-83F9-4662-95EB-9BA2A00D30FBQ58610757-503A82A0-D9B5-4B10-AFE6-50C8A458AF46Q62485172-A1B73D8A-B687-4990-B349-274EB745D730Q89339996-B82B6B35-9D53-4B65-9758-22529D77EE06
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Radu V Stan
@ast
Radu V Stan
@en
Radu V Stan
@es
Radu V Stan
@nl
Radu V Stan
@sl
type
label
Radu V Stan
@ast
Radu V Stan
@en
Radu V Stan
@es
Radu V Stan
@nl
Radu V Stan
@sl
prefLabel
Radu V Stan
@ast
Radu V Stan
@en
Radu V Stan
@es
Radu V Stan
@nl
Radu V Stan
@sl
P106
P31
P496
0000-0003-2969-1725