Abstract

BackgroundIn the vasculature, Notch signaling functions as a downstream effecter of Vascular Endothelial Growth Factor (VEGF) signaling. VEGF regulates sprouting angiogenesis in part by inducing and activating matrix metalloproteases (MMPs). This study sought to determine if VEGF regulation of MMPs was mediated via Notch signaling and to determine how Notch regulation of MMPs influenced endothelial cell morphogenesis.Methods and ResultsWe assessed the relationship between VEGF and Notch signaling in cultured human umbilical vein endothelial cells. Overexpression of VEGF-induced Notch4 and the Notch ligand, Dll4, activated Notch signaling, and altered endothelial cell morphology in a fashion similar to that induced by Notch activation. Expression of a secreted Notch antagonist (Notch1 decoy) suppressed VEGF-mediated activation of endothelial Notch signaling and endothelial morphogenesis. We demonstrate that Notch mediates VEGF-induced matrix metalloprotease activity via induction of MMP9 and MT1-MMP expression and activation of MMP2. Introduction of a MMP inhibitor blocked Notch-mediated endothelial morphogenesis. In mice, analysis of VEGF-induced dermal angiogenesis demonstrated that the Notch1 decoy reduced perivascular MMP9 expression.ConclusionsTaken together, our data demonstrate that Notch signaling can act downstream of VEGF signaling to regulate endothelial cell morphogenesis via induction and activation of specific MMPs. In a murine model of VEGF-induced dermal angiogenesis, Notch inhibition led to reduced MMP9 expression.

Highlights

  • In the vasculature, Notch signaling functions as a downstream effecter of Vascular Endothelial Growth Factor (VEGF) signaling

  • We demonstrate that Notch mediates VEGF-induced matrix metalloprotease activity via induction of MMP9 and MT1-matrix metalloproteases (MMPs) expression and activation of MMP2

  • In a murine model of VEGF-induced dermal angiogenesis, Notch inhibition led to reduced MMP9 expression

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Summary

Methods

Reagents and Expression Vectors (adenovirus/retrovirus)GM6001 was used at 50 μM (Elastin Products Company). eACA was used at 10 mM (Sigma). GM6001 was used at 50 μM (Elastin Products Company). Notch[1] decoy (N1decoy) encodes the extracellular domain of rat Notch[1] (bp 241-4229, accession# X57405) fused in frame to human IgG Fc, as described [ 26]. The constitutively active Notch[1] adenovirus (N1IC) encodes the cytoplasmic domain of human Notch[1] as described [ 27]. LacZ, human VEGF165 , and Notch[1] decoy cDNAs were engineered into pAdlox, recombinant adenoviruses generated and stocks produced as described [ 28]

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