Abstract
Fibroblast growth factor-binding proteins (FGF-BP) are secreted carrier proteins that release fibroblast growth factors (FGFs) from the extracellular matrix storage and thus enhance FGF activity. Here we have mapped the interaction domain between human FGF-BP1 and FGF-2. For this, we generated T7 phage display libraries of N-terminally and C-terminally truncated FGF-BP1 fragments that were then panned against immobilized FGF-2. From this panning, a C-terminal fragment of FGF-BP1 (amino acids 193-234) was identified as the minimum binding domain for FGF. As a recombinant protein, this C-terminal fragment binds to FGF-2 and enhances FGF-2-induced signaling in NIH-3T3 fibroblasts and GM7373 endothelial cells, as well as mitogenesis and chemotaxis of NIH-3T3 cells. The FGF interaction domain in FGF-BP1 is distinct from the heparin-binding domain (amino acids 110-143), and homology modeling supports the notion of a distinct domain in the C terminus that is conserved across different species. This domain also contains conserved positioning of cysteine residues with the Cys-214/Cys-222 positions in the human protein predicted to participate in disulfide bridge formation. Phage display of a C214A mutation of FGF-BP1 reduced binding to FGF-2, indicating the functional significance of this disulfide bond. We concluded that the FGF interaction domain is contained in the C terminus of FGF-BP1.
Highlights
They are released to bind to their high affinity tyrosine kinase receptors (FGFRs) and elicit their biological activities
To rule out the possibility that phage portions are required for this interaction, a recombinant fusion protein containing the C-terminal fragment of fibroblast growth factors (FGFs)-BP1 and maltose-binding protein (Malt) was generated and found to bind to immobilized FGF-2 in steady-state and in kinetic studies using surface plasmon resonance
FGF-BP1 is highly regulated during malignant progression and tissue injury and appears to enhance FGF signaling during tissue repair, angiogenesis, and tumor growth
Summary
They are released to bind to their high affinity tyrosine kinase receptors (FGFRs) and elicit their biological activities (reviewed for example in Refs 5–7). FGF-BP1 protein interacts at least with FGF-1, FGF-2, and FGF-7 and enhances angiogenesis in a chicken chorioallantoic membrane assay as well as FGF signaling in fibroblasts, epithelial, and endothelial cells [18, 22, 24, 25]. These data support a significant role for FGF-BP1 in malignancies and during tissue repair. Homology modeling supported these results and showed that the C-terminal residues of FGF-BP1 can form a stable domain that is sufficient for its binding to FGF
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