Abstract
The contribution of individual basic amino acids within three putative "consensus sequences" for heparin binding of fibroblast growth factor-1 have been examined by site-directed mutagenesis. The results indicate that a significant reduction in the apparent affinity of fibroblast growth factor-1 for heparin is only observed when basic residues in one of the three regions are mutated. Mutation in the other regions are without affect on heparin binding. The heparin binding properties of synthetic peptides based on the three "consensus sequences" paralleled the mutagenesis results. That is, synthetic peptides corresponding to regions of the protein that were affected by mutagenesis with respect to heparin binding exhibited a relatively high affinity for immobilized heparin, whereas those corresponding to regions of similar charge density that were unaffected by mutagenesis did not. In addition, amino acid substitution of a nonbasic residue in the heparin-binding peptide could abolish its heparin binding capacity. The heparin-binding peptide could antagonize the mitogenic activity of FGF-1, probably because of the heparin dependence of this activity. Together these data demonstrate that the heparin binding properties of fibroblast growth factor-1 are dictated by structural features more complex than clusters of basic amino acids. The results of these and other studies indicate that consensus motifs for heparin-binding require further definition. More importantly, the results provide a basis for the design of peptide-based inhibitors of FGF-1.
Highlights
The contribution of individual basic amino acids within three putative “consensus sequences” for heparin binding of fibroblast growth factor-1 have been examined by site-directed mutagenesis
Synthetic peptides corresponding to regions of the protein that were affected by mutagenesis with respect to heparin binding exhibited a relatively high affinity for immobilized heparin, whereas those corresponding to regions of similar charge density that were unaffected by mutagenesis did not
Synthetic peptides corresponding to regions of the wild-type and mutant sequences were synthesized, and their apparent affinities for heparin were determined. The results of these studies indicate that 1) a specific peptide with relatively high apparent affinity for heparin can be identified within the sequence of fibroblast growth factor (FGF)-1 and 2) the role of clusters of basic amino acid residues in heparin binding is more subtle than predicted by the consensus sequence models
Summary
The contribution of individual basic amino acids within three putative “consensus sequences” for heparin binding of fibroblast growth factor-1 have been examined by site-directed mutagenesis. We reported previously that a change of lysine 132 in FGF-1 to a glutamic acid (K132E) by site-directed mutagenesis reduced the apparent affinity of the recombinant protein for heparin [4].
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