Subsets of sialylated, sulfated mucins of diverse origins are recognized by L-selectin. Lack of evidence for unique oligosaccharide sequences mediating binding |
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Authors: | Crottet Pascal; Kim Young J; Varki Ajit |
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Institution: | Glycobiology Program. UCSD Cancer Center, and Division of Cellular and Molecular Medicine. University of California San Diego, La Jolla, CA 92093, USA |
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Abstract: | Previous studies have shown that the mucin-type polypeptidesGlyCAM-1, CD34, and MAdCAM-1 can function as ligands for L-selectinonly when they are synthesized by the specialized high-endothelialvenules (HEV) of lymph nodes. Since sialylation, sulfation,and possibly fucosylation are required for generating recognition,we reasoned that other mucins known to have such componentsmight also bind L-selectin. We show here that soluble mucinssecreted by human colon carcinoma cells, as well as those derivedfrom human bronchial mucus can bind to human L-selectin in acalcium-dependent manner. As with GlyCAM-1 synthesized by lymphnode HEY, 23 linked sialic acids and sulfation seem toplay a critical role in generating this L-selectin binding.In each case, only a subset of the mucin molecules is recognizedby L-selectin. Binding is not destroyed by boiling, suggestingthat recognition may be based primarily upon carbohydrate structures.Despite this, O-linked oligosaccharide chains released fromthese ligands by beta-elimination do not show any detectablebinding to L-selectin. Following protease treatment of the ligands,binding persists in a subset of the resulting fragments, indicatingthat specific recognition is determined by certain regions ofthe original mucins. How ever, O-linked oligosaccharides releasedfrom the subset of non-binding mucin fragments do not show verydifferent size and charge profiles compared to those that dobind. Furthermore, studies with polylactosamine-degrading endoglycosidasessuggest that the core structures involved in generating bindingcan vary among the different ligands. Taken together, thesedata indicate that a single unique oligosaccharide structuremay not be responsible for high-affinity binding. Rather, diversemucins with sialylated, sulfated, fucosylated lactosamine-typeO-linked oligosaccharides can generate high-affinity L-selectinligands, but only when they present these chains in unique spacingand/or clustered combinations, presumably dictated by the polypeptidebackbone. L-selectin mucins sialic sialic acid sulfate adhesion |
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