Urokinase receptor expression on human microvascular endothelial cells is increased by hypoxia: Implications for capillary-like tube formation in a fibrin matrix

article



Kroon, M.E.

Koolwijk, P.

Vecht, B. van der

Hinsbergh, V.W.M. van
Hypoxia stimulates angiogenesis, the formation of new blood vessels. This study evaluates the direct effect of hypoxia (1% oxygen) on the angiogenic response of human microvascular endothelial cells (hMVECs) seeded on top of a 3-dimensional fibrin matrix, hMVECs stimulated with fibroblast growth factor-2 (FGF-2) or vascular endothelial growth factor (VEGF) together with tumor necrosis factor-α (TNF-α) formed 2- to 3-fold more tubular structures under hypoxic conditions than in normoxic (20% oxygen) conditions. In both conditions the in-growth of capillary-like tubular structures into fibrin required cell-bound urokinase-type plasminogen activator (uPA) and plasmin activities. The hypoxia-induced increase in tube formation was accompanied by a decrease in uPA accumulation in the conditioned medium. This decrease in uPA level was completely abolished by uPA receptor-blocking antibodies. During hypoxic culturing uPA receptor activity and messenger RNA (mRNA) were indeed increased. This increase and, as a consequence, an increase in plasmin formation contribute to the hypoxia-induced stimulation of tube formation. A possible contribution of VEGF-A to the increased formation under hypoxic conditions is unlikely because there was no increased VEGF-A expression detected under hypoxic conditions, and the hypoxia-induced tube formation by FGF-2 and TNF-α was not inhibited by soluble VEGFR-1 (sVEGFR-1), or by antibodies blocking VEGFR-2. Furthermore, although the α(v)-integrin subunit was enhanced by hypoxia, blocking antibodies against α(v)β3 and α(v)β5-integrins had no effect on hypoxia-induced tube formation. Hypoxia increases uPA association and the angiogenic response of human endothelial cells in a fibrin matrix; the increase in the uPA receptor is an important determinant in this process. (C) 2000 by The American Society of Hematology.
Chemicals/CAS: fibrin, 9001-31-4; phorbol 13 acetate 12 myristate, 16561-29-8; plasmin, 9001-90-5, 9004-09-5; plasminogen activator, 9039-53-6; tissue plasminogen activator, 105913-11-9; urokinase, 139639-24-0; vasculotropin, 127464-60-2; Antigens, CD; Culture Media; Culture Media, Conditioned; DNA, Complementary; Endothelial Growth Factors; Fibrin, 9001-31-4; Fibroblast Growth Factor 2, 103107-01-3; Integrin alphaV; integrin alphaVbeta5; Integrins; Lymphokines; Oxygen, 7782-44-7; Plasmin, EC 3.4.21.7; plasminogen activator, urokinase receptors; Proto-Oncogene Proteins; Receptor Protein-Tyrosine Kinases, EC 2.7.1.112; Receptors, Cell Surface; Receptors, Growth Factor; Receptors, Vascular Endothelial Growth Factor, EC 2.7.1.112; Receptors, Vitronectin; RNA, Messenger; Tumor Necrosis Factor; Urinary Plasminogen Activator, EC 3.4.21.73; Vascular Endothelial Growth Factor Receptor-1, EC 2.7.1.112; vascular endothelial growth factor
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AnoxiaAntigens, CDCell HypoxiaCell SurvivalCells, CulturedCulture MediaCulture Media, ConditionedDNA, ComplementaryEndothelial Growth FactorsEndothelium, VascularExtracellular MatrixFibrinFibroblast Growth Factor 2Gene Expression RegulationHumanIntegrin alphaVIntegrinsLymphokinesMorphogenesisNeovascularization, PathologicOxygenPlasminProto-Oncogene ProteinsReceptor Protein-Tyrosine KinasesReceptors, Cell SurfaceReceptors, Growth FactorReceptors, Vascular Endothelial Growth FactorReceptors, VitronectinRNA, MessengerSupport, Non-U.S. Gov'tTumor Necrosis FactorUrinary Plasminogen ActivatorVascular Endothelial Growth Factor Receptor-1
TNO Identifier
235708
Repository link
https://resolver.tno.nl/uuid:3607f35f-1c79-49ff-a352-a23e8b037d2d
ISSN
00064971
Source
Blood, 96(8), pp. 2775-2783.
Pages
2775-2783
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