Jacqueline Murray scite author profile

Abstract-Interactions between integrins and growth factor receptors play a critical role in the development and healing of the vasculature. This study mapped two binding domains on fibronectin (FN) that modulate the activity of the angiogenic factor, vascular endothelial growth factor (VEGF T he growth, repair, and regeneration of blood vessels are complex processes that involve coordinated regulation of endothelial cell proliferation, migration, and differentiation. 1 One of the most important vascular morphogens is vascular endothelial growth factor (VEGF). VEGF has been shown to play a major role in vasculogenesis and angiogenesis by gene deletion studies. 2,3 Targeted disruption of the VEGF receptor Flk-1 (VEGFR-2) in mice resulted in failure of blood-island formation and endothelial differentiation. 4 Flk-1 is also the first endothelial receptor tyrosine kinase to be expressed in the hemangioblast. 5 We and others recently demonstrated that the hematopoietic progenitor cell CD34 ϩ can differentiate into endothelial cells, and that VEGF was one of the critical factors promoting this differentiation. 6,7 Interactions between cells and their extracellular matrix (ECM) play an integral role in blood vessel development. The earliest ECM protein expressed in the embryo during vasculogenesis is fibronectin (FN). 8 Gene deletion studies have demonstrated that both FN and its major integrin receptor, ␣ 5 ␤ 1 , are critical for vasculogenesis and angiogenesis in the developing embryo. 9 -11 Collectively, these observations suggest important roles for FN and its integrin receptor, ␣ 5 ␤ 1 , in vasculogenesis and angiogenesis.In this study, we show that novel VEGF binding domains of FN are required for promoting the specific association of the FN receptor integrin ␣ 5 ␤ 1 with the VEGF receptor, Flk-1. This association between VEGF and FN is required for the full effects of VEGF-induced endothelial cell migration and proliferation. This study demonstrates that FN can profoundly affect VEGF biological activity and consequently the behavior of endothelial cells through their coordinated effects on Flk-1 and ␣ 5 ␤ 1 . Materials and Methods Solid-Phase VEGF Binding AssayECM proteins and FN peptides were purchased from Sigma and Gibco and were purified further by gel filtration and ion exchange chromatography. Microtiter plates were coated with the appropriate ECM proteins (50 L; 10 g/mL) in 100 mmol/L bicarbonate buffer (pH 9) overnight at 4°C.

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Heparin-II Domain of Fibronectin Is a Vascular Endothelial Growth Factor-Binding Domain

Wijelath

Rahman

Namekata

et al. 2006

Circulation Research

257

173

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Integrin-dependent and -independent functions of astrocytic fibronectin in retinal angiogenesis

et al. 2011

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SUMMARYFibronectin (FN) is a major component of the extracellular matrix and functions in cell adhesion, cell spreading and cell migration. In the retina, FN is transiently expressed and assembled on astrocytes (ACs), which guide sprouting tip cells and deposit a provisional matrix for sprouting angiogenesis. The precise function of FN in retinal angiogenesis is largely unknown. Using genetic tools, we show that astrocytes are the major source of cellular FN during angiogenesis in the mouse retina. Deletion of astrocytic FN reduces radial endothelial migration during vascular plexus formation in a gene dose-dependent manner. This effect correlates with reduced VEGF receptor 2 and PI3K/AKT signalling, and can be mimicked by selectively inhibiting VEGF-A binding to FN through intraocular injection of blocking peptides. By contrast, AC-specific replacement of the integrin-binding RGD sequence with FN-RGE or endothelial deletion of itga5 shows little effect on migration and PI3K/AKT signalling, but impairs filopodial alignment along AC processes, suggesting that FN-integrin 51 interaction is involved in filopodial adhesion to the astrocytic matrix. AC FN shares its VEGF-binding function and cell-surface distribution with heparan-sulfate (HS), and genetic deletion of both FN and HS together greatly enhances the migration defect, indicating a synergistic function of FN and HS in VEGF binding. We propose that in vivo the VEGF-binding properties of FN and HS promote directional tip cell migration, whereas FN integrin-binding functions to support filopodia adhesion to the astrocytic migration template.

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