Chun-Ting Yuen scite author profile

A diversity of high-affinity oligosaccharide ligands are identified for NKR-P1, a membrane protein on natural killer (NK) cells which contains an extracellular Ca(2+)-dependent lectin domain. Interactions of such oligosaccharides on the target cell surface with NKR-P1 on the killer cell surface are crucial both for target cell recognition and for delivery of stimulatory or inhibitory signals linked to the NK cytolytic machinery. NK-resistant tumour cells are rendered susceptible by preincubation with liposomes expressing NKR-P1 ligands, suggesting that purging of tumour or virally infected cells in vivo may be a therapeutic possibility.

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The Cysteine-Rich Domain of the Macrophage Mannose Receptor Is a Multispecific Lectin That Recognizes Chondroitin Sulfates a and B and Sulfated Oligosaccharides of Blood Group Lewisa and Lewisx Types in Addition to the Sulfated N-Glycans of Lutropin

Leteux

et al. 2000

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The mannose receptor (MR) is an endocytic protein on macrophages and dendritic cells, as well as on hepatic endothelial, kidney mesangial, tracheal smooth muscle, and retinal pigment epithelial cells. The extracellular portion contains two types of carbohydrate-recognition domain (CRD): eight membrane-proximal C-type CRDs and a membrane-distal cysteine-rich domain (Cys-MR). The former bind mannose-, N-acetylglucosamine-, and fucose-terminating oligosaccharides, and may be important in innate immunity towards microbial pathogens, and in antigen trapping for processing and presentation in adaptive immunity. Cys-MR binds to the sulfated carbohydrate chains of pituitary hormones and may have a role in hormonal clearance. A second feature of Cys-MR is binding to macrophages in marginal zones of the spleen, and to B cell areas in germinal centers which may help direct MR-bearing cells toward germinal centers during the immune response. Here we describe two novel classes of carbohydrate ligand for Cys-MR: chondroitin-4 sulfate chains of the type found on proteoglycans produced by cells of the immune system, and sulfated blood group chains. We further demonstrate that Cys-MR interacts with cells in the spleen via the binding site for sulfated carbohydrates. Our data suggest that the three classes of sulfated carbohydrate ligands may variously regulate the trafficking and function of MR-bearing cells.

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High prevalence of 2‐mono‐ and 2,6‐di‐substituted Manol‐terminating sequences among O‐glycans released from brain glycopeptides by reductive alkaline hydrolysis

Chai

Yuen

Kogelberg

et al. 1999

European Journal of Biochemistry

124

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Di-to heptasaccharides isolated from total nondialyzable brain glycopeptides after release by alkaline borohydride treatment have been subjected to mass spectrometric and nuclear magnetic resonance spectroscopic analyses supplemented by TLC-MS analyses of derived neoglycolipids. A family of Manol-terminating oligosaccharides has been revealed which includes novel sequences with a 2,6-disubstituted Manol:In contrast to the Manol-terminating HNK-1 antigen-positive chains described previously that occur as a minor population [Yuen, C.-T., Chai, W., Loveless, R.W., Lawson, A.M., Margolis, R.U. & Feizi, T. (1997) J. Biol. Chem. 272, 8924±8931], the above oligosaccharides are abundant. The ratio of these compounds to the classical N-acetylgalactosaminitol-terminating oligosaccharides is about 1 : 3. Thus, there appears to be in higher eukaryotes a major alternative pathway related to the yeast-type protein O-mannosylation, the enzymatic basis and functional importance of which now require investigation.Keywords: brain glycoproteins; O-linked glycans; Manol-terminating oligosaccharides; neoglycolipids; TLC/MS.In an earlier study aimed at characterizing O-glycans on glycopeptides from brain that express the sulfoglucuronyl antigen, HNK-1, oligosaccharides were released by reductive alkaline hydrolysis and their immunoreactivities evaluated by the neoglycolipid technology [1]. The immunoreactive oligosaccharides were isolated and found to be tetra-to octasaccharides with the predicted 3-sulfoglucuronyl capping moieties and lactosaminyl backbones; the unexpected finding was that they terminate with hexitol (2-substituted and 2,6-disubstituted) rather than N-acetylgalactosaminitol. In a tetrasaccharide investigated in the greatest detail, the hexitol was identified as 2-substituted Manol [1]. The HNK-1-immunoreactive oligosaccharide alditols were extremely minor components each representing less than 0.1% of the total released oligosaccharides. However, an additional array of more abundant Manol-terminating oligosaccharides was noted including

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[28] Neoglycolipids: Probes of oligosaccharide structure, antigenicity, and function

Feizi¹,

Stoll²,

Yuen³

et al. 1994

119

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Nonreductive release of O-linked oligosaccharides from mucin glycoproteins for structure/function assignments as neoglycolipids: application in the detection of novel ligands for E-selectin

Chai¹,

Feizi²,

Yuen³

et al. 1997

Glycobiology

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The neoglycolipid technology comprises several microprocedures involving the generation of lipid-linked oligosaccharide probes for carbohydrate recognition studies in conjunction with oligosaccharide sequence determination by mass spectrometry. Although applicable to any desired oligosaccharides, procedures are greatly facilitated if the oligosaccharides are nonreduced, as conjugation is by reductive amination of a reducing end aldehyde to a phosphatidylethanolamine. Using bovine submaxillary mucin as a model for release of O-glycans in the reducing state, and based on yields of neoglycolipids and side-products from "peeling" reactions and degradation, aqueous ethylamine 70% w/v at 22 degrees C for 48 h has been selected in preference to other conditions, triethylamine, sodium hydroxide, and hydrazine. The integrity of the main acidic and neutral oligosaccharides released under these conditions, di- to octasaccharides, was established by analyses of free oligosaccharides by liquid secondary ion mass spectrometry (LSIMS) and of the derived neoglycolipids by TLC-LSIMS; the repertoire compared favorably with that of the oligosaccharide alditols generated by conventional reductive alkaline borohydride treatment. More forcing conditions of ethylamine 70% w/v at 65 degrees C for 6 h were required to release oligosaccharides from porcine gastric mucin; di- to nonasaccharides were obtained of which about one-third had an intact core GalNAc. Relative to yields after reductive alkaline hydrolysis, the overall yields for these two glycoproteins were 20% and 40-50% for acidic and neutral oligosaccharides, respectively. Among O-glycans released from an ovarian cystadenoma glycoprotein using ethylamine, three variants of the sulfated Le(a/x) sequences were identified as ligands for the endothelial adhesion molecule E-selectin, one of which is based on the unusual backbone Gal-3/4GlcNAc-3Gal-3Gal.

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Chun-Ting Yuen

Oligosaccharide ligands for NKR-P1 protein activate NK cells and cytotoxicity

The Cysteine-Rich Domain of the Macrophage Mannose Receptor Is a Multispecific Lectin That Recognizes Chondroitin Sulfates a and B and Sulfated Oligosaccharides of Blood Group Lewisa and Lewisx Types in Addition to the Sulfated N-Glycans of Lutropin

High prevalence of 2‐mono‐ and 2,6‐di‐substituted Manol‐terminating sequences among O‐glycans released from brain glycopeptides by reductive alkaline hydrolysis

[28] Neoglycolipids: Probes of oligosaccharide structure, antigenicity, and function

Nonreductive release of O-linked oligosaccharides from mucin glycoproteins for structure/function assignments as neoglycolipids: application in the detection of novel ligands for E-selectin

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