Inhibition of L-selectin-mediated Leukocyte Rolling by Synthetic Glycoprotein Mimics

• Published in: The Journal of biological chemistry Vol. 274; no. 9; pp. 5271 - 5278
• Main Authors: Sanders, W J, Gordon, E J, Dwir, O, Beck, P J, Alon, R, Kiessling, L L
• Format: Journal Article
• Language: English
• Published: United States American Society for Biochemistry and Molecular Biology 26.02.1999
• Subjects: Animals; Carbohydrate Sequence; Cell Line; Glycoproteins - chemistry; Glycoproteins - metabolism; Glycoproteins - pharmacology; L-Selectin - drug effects; L-Selectin - metabolism; Leukocytes - cytology; Leukocytes - drug effects; Lewis X Antigen - chemistry; Ligands; Mice; Molecular Mimicry; Molecular Sequence Data
• ISSN: 0021-9258; 1083-351X
• DOI: 10.1074/jbc.274.9.5271

Synthetic carbohydrate and glycoprotein mimics displaying sulfated saccharide residues have been assayed for their L-selectin inhibitory properties under static and flow conditions. Polymers displaying the L-selectin recognition epitopes 3′,6-disulfo Lewis x(Glc) (3- O -SO 3 -Galβ1α4(Fucα1α3)-6- O -SO 3 -Glcβ-OR) and 3′,6′-disulfo Lewis x(Glc) (3,6-di- O -SO 3 -Galβ1α4(Fucα1α3)Glcβ-OR) both inhibit L-selectin binding to heparin under static, cell-free binding conditions with similar efficacies. Under conditions of shear flow, however, only the polymer displaying 3′,6-disulfo Lewis x(Glc) inhibits the rolling of L-selectin-transfected cells on the glycoprotein ligand GlyCAM-1. Although it has been shown to more effective than sialyl Lewis x at blocking the L-selectin–GlyCAM-1 interaction in static binding studies, the corresponding monomer had no effect in the dynamic assay. These data indicate that multivalent ligands are far more effective inhibitors of L-selectin-mediated rolling than their monovalent counterparts and that the inhibitory activities are dependent on the specific sulfation pattern of the recognition epitope. Importantly, our results indicate the L-selectin specificity for one ligand over another found in static, cell-free binding assays is not necessarily retained under the conditions of shear flow. The results suggest that monovalent or polyvalent carbohydrate or glycoprotein mimetics that inhibit selectin binding in static assays may not block the more physiologically relevant process of selectin-mediated rolling.