Structural features in heparin which modulate specific biological activities mediated by basic fibroblast growth factor

The biological activity of basic fibroblast growth factor (bFGF)is influenced greatly by direct binding to heparin and heparansulphate (HS). Heparin-derived oligosaccharides have been utilizedto determine the structural requirements present in the polymerthat account for bind ing to bFGF. We had previously demonstratedthat fragments >6 mer can inhibit the interaction betweencell surface heparan sulphate proteoglycan (HSPG) and bFGF,and bFGF-induced proliferation of adrenocortical endothelial(ACE) cells. In contrast, oligosaccharides > 10 mer can enhancethe binding of bFGF to its high-affinity receptor or supportbFGF-induced mitogenesis in ACE cells (Ishihara et al., J. Biol.Chem., 268, 4675–4683, 1993). We have extended these studiesto size- and structure-defined oligosaccharides from heparin,2-O-desulphated (2-O-DS-) heparin, 6-O-desulphated (6-O-DS-)heparin, carboxyreduced (CR-) heparin and carboxy-amidomethylsulphonated(AMS-) heparin. Oligosaccharides from these polymers were fractionatedon a bFGF-affinity column and were assessed as inhibitors orenhancers of specific bFGF-derived biological activities. Theresults of these studies indicate that both 2-O-sulphate andthe negative charge of the carboxy group L-iduronic acid (IdoA)residues] are required for specific interactions of heparin-derivedoligosaccharides with bFGF and for modulation of bFGF mitogenicactivity. In addition, the charge of the carboxy groups in uronicacids can be replaced by other functional groups with a negativecharge, such as the amidomethyl sulphonate moiety describedhere. basic fibroblast growth factor heparan sulphate heparin oligosaccharides