Abstract
The longer splice isoforms of vascular endothelial growth factor-A (VEGF-A), including mouse VEGF164, contain a highly basic heparin-binding domain (HBD), which imparts the ability of these isoforms to be deposited in the heparan sulfate-rich extracellular matrix and to interact with the prototype sulfated glycosaminoglycan, heparin. The shortest isoform, VEGF120, lacks this highly basic domain and is freely diffusible upon secretion. Although the HBD has been attributed significant relevance to VEGF-A biology, the molecular determinants of the heparin-binding site are unknown. We used site-directed mutagenesis to identify amino acid residues that are critical for heparin binding activity of the VEGF164 HBD. We focused on basic residues and found Arg-13, Arg-14, and Arg-49 to be critical for heparin binding and interaction with extracellular matrix in tissue samples. We also examined the cellular and biochemical consequences of abolishing heparin-binding function, measuring the ability of the mutants to interact with VEGF receptors, induce endothelial cell gene expression, and trigger microvessel outgrowth. Induction of tissue factor expression, vessel outgrowth, and binding to VEGFR2 were unaffected by the HBD mutations. In contrast, the HBD mutants showed slightly decreased binding to the NRP1 (neuropilin-1) receptor, and analyses suggested the heparin and NRP1 binding sites to be distinct but overlapping. Finally, mutations that affect the heparin binding activity also led to an unexpected reduction in the affinity of VEGF164 binding specifically to VEGFR1. This finding provides a potential basis for previous observations suggesting enhanced potency of VEGF164 versus VEGF120 in VEGFR1-mediated signaling in inflammatory cells.
Highlights
KDR), two structurally similar receptor tyrosine kinases expressed on vascular endothelial cells (2, 3)
Based on solution structure data and, in particular, the surface charge distribution of the COOH-terminal fragment, it has been suggested that a putative heparin-binding site may involve two basic clusters consisting of side chains of residues Arg-13, Arg-14, and Lys-15 and residues Lys-30, Arg-35, Arg-39, and Arg-46
We utilized a structure-guided mutagenesis approach focusing on the involvement of six solvent-exposed arginines and one lysine in the two basic amino acid clusters identified by NMR and assessed their role in heparin binding by replacing these residues with alanine
Summary
KDR), two structurally similar receptor tyrosine kinases expressed on vascular endothelial cells (2, 3). Recombinant VEGF164 and HBD proteins bound to the heparin column in the presence of 0.1 M NaCl, whereas VEGF120 did not bind (Fig. 3A).
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