Anchorage of VEGF to the extracellular matrix conveys differential signaling responses to endothelial cells.
about
Formation of VEGF isoform-specific spatial distributions governing angiogenesis: computational analysisMULTIMERIN2 impairs tumor angiogenesis and growth by interfering with VEGF-A/VEGFR2 pathwayEndorepellin, the angiostatic module of perlecan, interacts with both the α2β1 integrin and vascular endothelial growth factor receptor 2 (VEGFR2): a dual receptor antagonismTetraspanin CD63 promotes vascular endothelial growth factor receptor 2-β1 integrin complex formation, thereby regulating activation and downstream signaling in endothelial cells in vitro and in vivoBreast cancer cells alter the dynamics of stromal fibronectin-collagen interactionsFibronectin Mechanobiology Regulates TumorigenesisCapture of endothelial cells under flow using immobilized vascular endothelial growth factorThe cellular response to vascular endothelial growth factors requires co-ordinated signal transduction, trafficking and proteolysisRemodelling the extracellular matrix in development and diseaseMolecular mechanisms controlling vascular lumen formation in three-dimensional extracellular matricesExtracellular regulation of VEGF: isoforms, proteolysis, and vascular patterning.Regulation of blood vessel sproutingMolecular control of endothelial cell behaviour during blood vessel morphogenesisA computational model predicting disruption of blood vessel developmentβ3 Integrin Promotes Long-Lasting Activation and Polarization of Vascular Endothelial Growth Factor Receptor 2 by Immobilized Ligand.Canonical and noncanonical vascular endothelial growth factor pathways: new developments in biology and signal transduction.Endothelial deletion of murine Jag1 leads to valve calcification and congenital heart defects associated with Alagille syndromeJagged1 in the portal vein mesenchyme regulates intrahepatic bile duct development: insights into Alagille syndromeTime- and compartment-resolved proteome profiling of the extracellular niche in lung injury and repairThe effect of Heparin-VEGF multilayer on the biocompatibility of decellularized aortic valve with platelet and endothelial progenitor cellsA novel extracellular role for tissue transglutaminase in matrix-bound VEGF-mediated angiogenesis.Imatinib inhibits VEGF-independent angiogenesis by targeting neuropilin 1-dependent ABL1 activation in endothelial cellsA Slit/miR-218/Robo regulatory loop is required during heart tube formation in zebrafish.VEGF targets the tumour cell.Rac1 GTPase silencing counteracts microgravity-induced effects on osteoblastic cells.A ligand-independent VEGFR2 signaling pathway limits angiogenic responses in diabetes.Quantifying the proteolytic release of extracellular matrix-sequestered VEGF with a computational model.An inside view: VEGF receptor trafficking and signalingExtracellular matrix, inflammation, and the angiogenic response.Syntenin promotes VEGF-induced VEGFR2 endocytosis and angiogenesis by increasing ephrin-B2 function in endothelial cells.Early embryonic vascular patterning by matrix-mediated paracrine signalling: a mathematical model study.Tumour cells expressing single VEGF isoforms display distinct growth, survival and migration characteristicsEngineering self-contained DNA circuit for proximity recognition and localized signal amplification of target biomoleculesVEGF-A isoforms differentially regulate ATF-2-dependent VCAM-1 gene expression and endothelial-leukocyte interactions.Regulation of vascular endothelial growth factor receptor 2 trafficking and angiogenesis by Golgi localized t-SNARE syntaxin 6Mesenchymal stem cell migration is regulated by fibronectin through α5β1-integrin-mediated activation of PDGFR-β and potentiation of growth factor signalsInfluence of soluble or matrix-bound isoforms of vascular endothelial growth factor-A on tumor response to vascular-targeted strategies.Capillary Network-Like Organization of Endothelial Cells in PEGDA Scaffolds Encoded with Angiogenic Signals via Triple Helical Hybridization.MMP-9 gene deletion mitigates microvascular loss in a model of ischemic acute kidney injury.Integrin-dependent and -independent functions of astrocytic fibronectin in retinal angiogenesis.
P2860
Q21202775-AD0F7496-A01D-4546-8817-8460DDDAA3FBQ24294441-0E31F983-F7C6-40CE-9FC0-C531126ED78EQ24303934-F0DCFC91-9622-4CFC-96FA-C38519D447B5Q24339486-1FB5F1F9-B776-4FFF-9AC5-BC00BB7A788DQ26738477-4187AE0D-413A-4F5C-AC39-A509022222DBQ26768515-C1DE74C8-EFAB-4438-9ABC-D3C5D0CA76A2Q26782026-F418FB32-7044-4E4F-B5F5-DCE1278F3C06Q26796921-A8A5CFD3-A1F0-4E41-920E-9DB2D54B37C0Q26864798-7D59DA01-DCDD-4B52-A4B8-E8FFA9153C27Q26996223-E66EDC49-77A1-4685-8622-9CE89599DF5AQ27000351-E5E15074-FF7F-4882-85CA-AC5E30BD33EAQ27006807-8E08ADD5-E2D1-4D94-B6AE-7DE354577C9EQ27007664-BC9B362A-6692-456E-99AE-F33399AD11B6Q27324767-3EDF3C5C-1422-4C29-9623-B6FAA3D1E3BEQ27342136-DB3D397F-7407-4325-9FFE-73025FA3A1BCQ27342723-53924A9A-B644-4F9A-8E67-CDB4FE962C54Q28277874-BC78799E-DF9C-43F1-8FB1-6428BC3D5F1CQ28297967-21476EAB-5632-4FFF-88E8-C1C7712C4D98Q28386563-510D71F3-DF77-4CCD-A72A-30E18211C681Q28709519-7884BDCC-E2BF-4A14-B55A-A0D4D7DE1DE7Q30547848-7902E85D-A6D3-4E2D-8123-0575B3B7BEA9Q30579734-BD192D42-CF7C-4129-B999-AEF472D08BE8Q33292068-B06E8948-60AC-461C-B569-BA6C540C4F3DQ33573324-DEFCBC7F-AD6A-4E9D-B981-C306034BCFF3Q33576246-1014524E-1A24-46C8-877E-EDDE8DEB1097Q33648934-3E71DF29-209C-4F5F-8F1D-D64AEA53D0C0Q33649673-3BCF94CF-CFCA-42F2-879D-C2D2CAE1B8ABQ33682832-632B5DC0-3E52-453B-91AF-D2F554CCA84CQ33795730-F274E4F3-DBA4-4DF0-B4F5-2D8EA9E0827FQ33888996-A224D325-118C-4575-8907-BFE9EA33CB4BQ34031278-610AD732-04BD-4066-BB14-A9C180F38D01Q34041280-DC2931BD-EA15-470C-991F-54701D24F254Q34044502-B8FBAF08-9A57-44A1-828A-D31D424A8F12Q34081464-643D814C-0395-4AE4-AC71-D72A57F8DC75Q34666953-DA5E0635-CD44-406C-8C2D-F360D5A08820Q34727916-0282FC15-A713-4173-8C34-595F60C96CF4Q34742649-92008840-E950-4F84-A34E-428E825A5B27Q34756553-015146E0-2DDF-45F7-B3AE-C003AD6558B1Q35086941-9FBFA838-7B53-48E6-B021-7FD8239D03A5Q35224567-E1496630-5D44-45CD-80B4-84E07B40454C
P2860
Anchorage of VEGF to the extracellular matrix conveys differential signaling responses to endothelial cells.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Anchorage of VEGF to the extra ...... esponses to endothelial cells.
@ast
Anchorage of VEGF to the extra ...... esponses to endothelial cells.
@en
type
label
Anchorage of VEGF to the extra ...... esponses to endothelial cells.
@ast
Anchorage of VEGF to the extra ...... esponses to endothelial cells.
@en
prefLabel
Anchorage of VEGF to the extra ...... esponses to endothelial cells.
@ast
Anchorage of VEGF to the extra ...... esponses to endothelial cells.
@en
P2093
P2860
P356
P1476
Anchorage of VEGF to the extra ...... esponses to endothelial cells.
@en
P2093
Alfonso Luque
M Luisa Iruela-Arispe
Sean M Anderson
Sunyoung Lee
Tatiana Segura
Tom T Chen
P2860
P304
P356
10.1083/JCB.200906044
P407
P577
2010-02-01T00:00:00Z