Molecular Modeling as a Powerful Tool for the Mapping of Fibroblast Growth Factor Receptor-1 Ligand Binding Determinants

Abstract

Molecular modeling has allowed us to propose that one main contact surface of the Fibroblast Growth Factor Receptor -1 (FGFR-1) to the ligand FGF-1 is formed by a 16 amino acid sequence comprised by the C-terminal region of the domain II (DII) plus the hinge linking DII and DIII domains and the N-terminal region of domain III (DIII). Therefore, this sequence was used to design the following three peptides: Ac-YQLDVVERS-NH2 (R1); Ac-YQLDVVERSPHRPILQ-NH2 (R2) and Ac-RSPHRPILQ-NH2 (R3). The synthetic peptides were tested in their ability to inhibit the mitogenic activity of FGF-1 and FGF-2 in cultured Balb/c 3T3 fibroblasts. The results showed that R1 and R2 inhibited the activity of FGF-1 (ID50 = 40 -50 μM) but not that of FGF-2. Molecular modeling studies of R1 and its docking to FGF-1 suggested that this peptide could assume a conformation very similar to that found in the corresponding segment of FGFR-1. All these results support our hypothesis that the C-terminal residues of the DII domain, represented by peptide R1, are part of a surface responsible for the binding of FGF-1 to FGFR-1 but not of FGF-2. Also, they indicate that peptide R1 may be useful for the development of small selective peptide inhibitors of the FGF-1 biological activities.