IDENTIFICATION OF THE DOMAIN WITHIN FIBROBLAST GROWTH-FACTOR-I RESPONSIBLE FOR HEPARIN-DEPENDENCE

While the prototype members of the fibroblast growth factor (FGF) fami ly, FGF-1 and FGF-2 are structurally related, the structural differenc es between these polypeptides predict that they will ultimately exhibi t different biological roles. Indeed, a significant difference between these proteins is the dependence of FGF-1 on heparin for the generati on of maximal mitogenic activity. In order to gain structural insight into the issue of FGF-1 heparin-dependence, a synthetic gene encoding FGF-2 was constructed with oligonucleotides in a four-cassette format similar to a synthetic gene previously constructed for FGF-1 (Forough ct al. 1992, Biochem. Biophys. Acta 1090 293-298). This strategy permi tted the molecular shuffling of corresponding cassette(s) between FGF- 1 and FGF-2 to yield FGF-1:FGF-2 chimeras. Three amino acid changes (L ys86 --> Glu, Tyr120 --> His, and Thr121 --> Ala) were introduced into the synthetic FGF-2 gene by the cassette format to generate convenien t FGF-1 restriction sites, but these alterations did not significantly affect the mitogenic activity or the heparin-binding affinity of the recombinant FGF-2 protein when compared with native FGF-2. Among the v arious FGF-1:FGF-2 chimeric constructs, one designated FGF-C(1(1/2)11) , which represents FGF-1 containing FGF-2 amino acid residues 65 to 81 . displayed FGF-1-like heparin-binding affinity but it did not require the addition of exogenous heparin to manifest its mitogenic activity. These data su,ggest that the sequence within residues 65 and 81 from FGF-2 significantly contributes to the heparin-dependent character of FGF-1.