Heparin binding preference and structures in the fibroblast growth factor family parallel their evolutionary diversification.

Yong Li,Mark C Wilkinson,Edwin A Yates,David G Fernig,Changye Sun,Chao Jiang

doi:10.1098/rsob.150275

Yong Li, Mark C Wilkinson + Show 4 more

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https://doi.org/10.1098/rsob.150275

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Abstract

The interaction of a large number of extracellular proteins with heparan sulfate (HS) regulates their transport and effector functions, but the degree of molecular specificity underlying protein–polysaccharide binding is still debated. The 15 paracrine fibroblast growth factors (FGFs) are one of the paradigms for this interaction. Here, we measure the binding preferences of six FGFs (FGF3, FGF4, FGF6, FGF10, FGF17, FGF20) for a library of modified heparins, representing structures in HS, and model glycosaminoglycans, using differential scanning fluorimetry. This is complemented by the identification of the lysine residues in the primary and secondary binding sites of the FGFs by a selective labelling approach. Pooling these data with previous sets provides good coverage of the FGF phylogenetic tree, deduced from amino acid sequence alignment. This demonstrates that the selectivity of the FGFs for binding structures in sulfated polysaccharides and the pattern of secondary binding sites on the surface of FGFs follow the phylogenetic relationship of the FGFs, and so are likely to be the result of the natural selection pressures that led to the expansion of the FGF family in the course of the evolution of more complex animal body plans.

Highlights

The glycosaminoglycan heparan sulfate (HS) regulates many aspects of cell communication by means of binding to over 435 extracellular proteins and thereby controlling their activities [1]
The results suggested that there is a degree of selectivity in fibroblast growth factors (FGFs)–heparin interactions, and this reflects the evolution of the FGF family members [31], which parallels the specificity of FGF ligands for FGF receptor (FGFR) [32]
To resolve the extent to which molecular specificity underpins the interactions of proteins with HS, we have used the phylogenetic relationship of the FGF family, established from amino acid sequence, as a model system

Summary

Introduction

The glycosaminoglycan heparan sulfate (HS) regulates many aspects of cell communication by means of binding to over 435 extracellular proteins and thereby controlling their activities [1] (reviewed in [2,3,4]). Two classic examples are the activation of antithrombin III by the polysaccharide, which contributes to the regulation of coagulation [5], and the control of the transport and effector functions of the paracrine fibroblast growth factors (FGFs) by their binding to HS [6 –10]. It is the core protein that directs the HS chains to their functional location, which can be the cell surface or the extracellular matrix. The repeating units of HS consist of a glucuronic acid (GlcA) or its C5 epimer iduronic acid (IdoA) and D-glucosamine (GlcN). The biosynthetic pathway has been proposed to have two branches [11]: the major branch is the chain modified by the N-deacetylase/

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