O-linked protein glycosylation structure and function

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Abstract

There has been a recent resurgence of interest in the post-translational modification of serine and threonine hydroxyl groups by glycosylation, because the resulting O-linked oligosaccharide chains tend to be clustered over short stretches of peptide and hence they can present multivalent carbohydrate antigenic or functional determinants for antibody recognition, mammalian cell adhesion and microorganism binding. Co-operativity can greatly increase the affinity of interactions with antibodies or carbohydrate binding proteins. Thus, in addition to their known importance in bearing tumour associated antigens in the gastrointestinal and respiratory tracts, glycoproteins with O-linked chains have been implicated as ligands or co-receptors for selectins (mammalian carbohydrate binding proteins). Microorganisms may have adopted similar mechanisms for interactions with mammalian cells in infection, by having relatively low affinity ligands (adhesins) for carbohydrate binding, which may bind with higher affinity due to the multivalency of the host ligand and which are complemented by other virulence factors such as interactions with integrin-type molecules. In addition to specific adhesion signals from O-linked carbohydrate chains, multivalent O-glycosylation is involved in determining protein conformation and forming conjugate oligosaccharide-protein antigenic, and possible functional determinants.

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Attachment of Helicobacter pylori to human gastric epithelium mediated by blood group antigens.

T Borén, P Falk, K A Roth … (1993)

Helicobacter pylori is associated with development of gastritis, gastric ulcers, and adenocarcinomas in humans. The Lewis(b) (Le(b)) blood group antigen mediates H. pylori attachment to human gastric mucosa. Soluble glycoproteins presenting the Leb antigen or antibodies to the Leb antigen inhibited bacterial binding. Gastric tissue lacking Leb expression did not bind H. pylori. Bacteria did not bind to Leb antigen substituted with a terminal GalNAc alpha 1-3 residue (blood group A determinant), suggesting that the availability of H. pylori receptors might be reduced in individuals of blood group A and B phenotypes, as compared with blood group O individuals.

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Biosynthetic controls that determine the branching and microheterogeneity of protein-bound oligosaccharides.

H Schachter (1986)

Detailed studies on the enzyme machinery responsible for the biosynthesis of protein-bound oligosaccharides of the Asn-GlcNAc and Ser(Thr)-GalNAc linkage types have allowed the formulation of some general rules which explain, at least in part, the branching patterns and microheterogeneity of these structures. These rules are discussed under the following headings: competition of two or more enzymes for a common substrate; controls at the level of enzyme substrate specificity (e.g., critical sugar residues which turn enzyme activity on or off, branch specificity, and the role of the polypeptide in the glycoprotein substrate); substrate availability.

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O-linked fucose and other post-translational modifications unique to EGF modules.

J M Pile-Spellman, Philip D. Harris (1993)

Three types of unusual post-translational modification have been found within conserved amino acid sequences in epidermal growth factor homology regions (EGF modules) of some multidomain proteins. beta-Hydroxyaspartate and beta-hydroxyasparagine are found within -Cys-Xxx-Asp/Asn-Xxx-Xxx-Xxx-Xxx-Tyr/Phe-Xxx-Cys-Xxx-Cys- sequences. (Xyl alpha 1-->3)Xyl alpha 1-->3Glc beta 1-->O-Ser glycans at conserved sites within -Cys-Xxx-Ser-Xxx-Pro-Cys- sequences have been reported in several proteins. Fuc alpha 1-->O-Thr/Ser modifications have been found at conserved sites within -Cys-Xxx-Xxx-Gly-Gly-Thr/Ser-Cys- sequences. More recently, it has been discovered that the Ser residue corresponding to the potential O-fucosylation site in human factor IX carries the novel tetrasaccharide NeuAc alpha 2-->6Gal beta 1-->4GlcNAc beta 1-->3Fuc alpha 1-->O-Ser; this tetrasaccharide can be considered to be an extension of the Fuc alpha 1-->O moiety. The consensus sequences for these post-translational modifications are in close proximity to each other; e.g. human factor IX has all three unusual modifications within a 12 amino acid linear sequence. In proteins with multiple EGF modules, the O-glycosidic modifications have been found only within the N-terminal EGF module; beta-hydroxyaspartate/asparagine residues are not restricted in the same fashion. Little is known yet about the functions of, or possible relationships between, any of these modifications.