Jeffrey D. Esko scite author profile

Virtually every cell type in metazoan organisms produces heparan sulfate. These complex polysaccharides provide docking sites for numerous protein ligands and receptors involved in diverse biological processes, including growth control, signal transduction, cell adhesion, hemostasis, and lipid metabolism. The binding sites consist of relatively small tracts of variably sulfated glucosamine and uronic acid residues in specific arrangements. Their formation occurs in a tissue-specific fashion, generated by the action of a large family of enzymes involved in nucleotide sugar metabolism, polymer formation (glycosyltransferases), and chain processing (sulfotransferases and an epimerase). New insights into the specificity and organization of the biosynthetic apparatus have emerged from genetic studies of cultured cells, nematodes, fruit flies, zebrafish, rodents, and humans. This review covers recent developments in the field and provides a resource for investigators interested in the incredible diversity and specificity of this process.

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Heparan sulphate proteoglycans fine-tune mammalian physiology

Bishop

Schuksz

Esko

2007

Nature

1,442

1,400

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Heparan sulphate proteoglycans reside on the plasma membrane of all animal cells studied so far and are a major component of extracellular matrices. Studies of model organisms and human diseases have demonstrated their importance in development and normal physiology. A recurrent theme is the electrostatic interaction of the heparan sulphate chains with protein ligands, which affects metabolism, transport, information transfer, support and regulation in all organ systems. The importance of these interactions is exemplified by phenotypic studies of mice and humans bearing mutations in the core proteins or the biosynthetic enzymes responsible for assembling the heparan sulphate chains.

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Heparan Sulfate Proteoglycans

Sarrazin¹,

Lamanna²,

Esko

2011

Cold Spring Harbor Perspectives in Biology

1,247

1,238

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Jeffrey D. Esko

Cell surface, heparin-like molecules are required for binding of basic fibroblast growth factor to its high affinity receptor

Order Out of Chaos: Assembly of Ligand Binding Sites in Heparan Sulfate

Heparan sulphate proteoglycans fine-tune mammalian physiology

Heparan Sulfate Proteoglycans

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