Abstract
We investigated the mechanism by which heparin enhances the binding of vascular endothelial growth factor (VEGF) to the extracellular matrix protein fibronectin. In contrast to other systems, where heparin acts as a protein scaffold, we found that heparin functions catalytically to modulate VEGF binding site availability on fibronectin. By measuring the binding of VEGF and heparin to surface-immobilized fibronectin, we show that substoichiometric amounts of heparin exposed cryptic VEGF binding sites within fibronectin that remain available after heparin removal. Measurement of association and dissociation kinetics for heparin binding to fibronectin indicated that the interaction is rapid and transient. We localized the heparin-responsive element to the C-terminal 40-kDa Hep2 domain of fibronectin. A mathematical model of this catalytic process was constructed that supports a mechanism whereby the heparin-induced conformational change in fibronectin is accompanied by release of heparin. Experiments with endothelial extracellular matrix suggest that this process may also occur within biological matrices. These results indicate a novel mechanism whereby heparin catalyzes the conversion of fibronectin to an open conformation by transiently interacting with fibronectin and progressively hopping from molecule to molecule. Catalytic activation of the extracellular matrix might be an important mechanism for heparin to regulate function during normal and disease states.
Highlights
Metastasis of several types of tumors [7, 8]
Nonstoichiometric Increase in vascular endothelial growth factor (VEGF) Binding to Fibronectin by Heparin—Previously [29], we showed that treatment of surface-adsorbed fibronectin with heparin leads to an increase in the number of VEGF binding sites within the fibronectin matrix, accompanied by a conformational change in fibronectin from a compact to a more extended conformation (Fo)
The maximum amount of VEGF bound to fibronectin, which is equivalent to the concentration of open fibronectin binding sites (Fo) as described under “Experimental Procedures,” would be expected to be similar to the amount of heparin bound to the fibronectin matrix following the treatment period
Summary
We investigated the mechanism by which heparin enhances the binding of vascular endothelial growth factor (VEGF) to the extracellular matrix protein fibronectin. Experiments with endothelial extracellular matrix suggest that this process may occur within biological matrices These results indicate a novel mechanism whereby heparin catalyzes the conversion of fibronectin to an open conformation by transiently interacting with fibronectin and progressively hopping from molecule to molecule. Catalysis of Structural Changes in Fibronectin fibronectin, heparin, and VEGF We propose that this mechanism reflects a new catalytic biological function of heparin, whereby the structure of the extracellular matrix (ECM) is modulated in sites where heparin is released in order to coordinate growth factor binding and activity
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