Hepatocyte growth factor/scatter factor binds with high affinity to dermatan sulfate

Malcolm Lyon, Jon A. Deakin, Hassan Rahmoune, David G. Fernig, Toshikazu Nakamura, John T. Gallagher

    Research output: Contribution to journalArticlepeer-review

    Abstract

    We have demonstrated by affinity chromatography that hepatocyte growth factor/scatter factor (HGF/SF) binds strongly to dermatan sulfate (DS), with a similar ionic strength dependence to that previously seen with heparan sulfate (HS). Analysis of binding kinetics on a biosensor yields an equilibrium dissociation constant, K(D), of 19.7 nM. This corresponds to a 10-100-fold weaker interaction than that with HS, primarily due to a faster dissociation rate of the complex. The smallest DS oligosaccharide with significant affinity for HGF/SF by affinity chromatography appears to bean octasaccharide. A sequence comprising unsulfated iduronate residues in combination with 4-O-sulfated N-acetylgalactosamine is sufficient for high affinity binding. The presence of 2-O-sulfation on the iduronate residues does not appear to be inhibitory. These observations concur with our previous suggestions, from analyses of HS binding (Lyon, M., Deakin, J. A., Mizuno, K., Nakamura, T., and Gallagher, J.T. (1994) J. Biol. Chem. 269, 11216- 11223), that N-sulfation of hexosamines and 2-O-sulfation of iduronates are not absolute requirements for glycosaminoglycan binding to HGF/SF. This is the first described example of a high affinity interaction between a growth factor and DS, and is likely to have significant implications for the biological activity of this paracrine-acting factor.
    Original languageEnglish
    Pages (from-to)271-278
    Number of pages7
    JournalJournal of Biological Chemistry
    Volume273
    Issue number1
    Publication statusPublished - 2 Jan 1998

    Keywords

    • 3T3 Cells
    • Animals
    • Binding, Competitive
    • Carbohydrate Conformation
    • Cell Line
    • metabolism: Dermatan Sulfate
    • Dogs
    • metabolism: Hepatocyte Growth Factor
    • Humans
    • Kinetics
    • Mice
    • Mice, Inbred BALB C
    • chemistry: Oligosaccharides
    • Protein Binding

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