Glycoproteins and Their Relationship to Human Disease

Brockhausen, Inka; Schutzbach, John S.; Kuhns, William J.

doi:10.1159/000046450

Cited by 169 publications

(109 citation statements)

References 268 publications

(300 reference statements)

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“…Indeed, sialyl-Tn can be used as a diagnostic marker in many cancers (39,40), where high expression of sialyl-Tn is associated with poor prognosis (39,(41)(42)(43). The mechanism underlying the expression of this antigen on cancer cells may be a lack of expression of the glycosyltransferases that normally extend the O-glycan chains or the premature hypersialylation of the O-linked GalNAc residue, preventing the action of these extension glycosyltransferases (39,70). De-O-acetylation may be another means to generate sialyl-Tn in cancers: in normal healthy colon sialyl-Tn is found in the O-acetylated form, whereas in colonic tumors the O-acetylated form is ab- sent (71)(72)(73).…”

Section: Resultsmentioning

confidence: 99%

“…For example, since sialyl-Tn was noted as a ligand for siglec-6, the direct recognition of the sialyl-Tn epitope has never been examined for other siglecs. Sialyl-Tn is a disaccharide found frequently on a variety of cancers and is known to be a useful diagnostic marker (39,40). High expression of this antigen is associated with a poor prognosis in most cancers studied (39,(41)(42)(43).…”

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confidence: 99%

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New Aspects of Siglec Binding Specificities, Including the Significance of Fucosylation and of the Sialyl-Tn Epitope

Linden¹,

Varki

2000

Journal of Biological Chemistry

159

135

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The siglecs (sialic acid-binding immunoglobulin superfamily lectins) are immunoglobulin superfamily members recognizing sialylated ligands. Most prior studies of siglec specificities focused on ␣2-3-and ␣2-6-sialyllactos(amin)es and on one or two of the siglecs at a time. Here, we explore several new aspects of specificities of the first six reported siglecs, using sialylated glycans presented in multivalent form, on synthetic polyacrylamide backbones, or on mucin polypeptides. First, we report that binding of siglec-1 (sialoadhesin), siglec-3 (CD33), siglec-4a (myelin-associated glycoprotein), and siglec-5 to ␣2-3 sialyllactosamine is affected markedly by the presence of an ␣1-3-linked fucose. Thus, while siglecs may not interfere with selectin-mediated recognition, fucosylation could negatively regulate siglec binding. Second, in contrast to earlier studies, we find that siglec-3 prefers ␣2-6-sialyllactose. Third, siglec-5 binds ␣2-8-linked sialic acid, making it the siglec least specific for linkage recognition. Fourth, siglecs-2 (CD22), -3, -5, and -6 (obesity-binding protein 1) showed significant binding to sialyl-Tn (Neu5Ac␣2-6-GalNAc), a tumor marker associated with poor prognosis. Fifth, siglec-6 is an exception among siglecs in not requiring the glycerol side chain of sialic acid for recognition. Sixth, all siglecs require the carboxyl group of sialic acid for binding. Finally, the presentation of the sialyl-Tn epitope and/or more extended structures that include this motif may be important for optimal recognition by the siglecs. This was concluded from studies using ovine, bovine, and porcine submaxillary mucins and Chinese hamster ovary cells transfected with ST6GalNAc-I and/or the mucin polypeptide MUC1.The siglecs (sialic acid-binding immunoglobulin superfamily lectins)1 are a class of Ig superfamily proteins (1) which show binding activity to specific glycan structures containing sialic acid (1-5). Sialic acids are acidic monosaccharides frequently found at the outer end of secreted and cell surface glycoconjugates (5-8), a good location for recognition by lectins such as the siglecs. To date, six different members of this family of lectins have been characterized (1, 2, 9 -14), and a recent paper describes a potential seventh member (15). The siglecs share overall structural characteristics, with an NH 2 -terminal V-set Ig domain followed by varying numbers of C2-set Ig domains. Siglec-1 (sialoadhesin, Sn) is the largest member, with 17 extracellular Ig domains, whereas siglec-3 (CD33) is the smallest, with only 2 of these domains. Each siglec has its own unique tissue distribution and specific phosphorylation sites on the cytosolic tail, indicating that each has specific functions mediated by the lectin activity. The latter suggestion is substantiated by the fact that each siglec seems to display distinctive specificities for recognition of sialic acid linkages. However, for most siglecs only a limited sampling of the wide array of sialylated glycans found in nature have been examined, primarily ...

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Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

New Aspects of Siglec Binding Specificities, Including the Significance of Fucosylation and of the Sialyl-Tn Epitope

Linden¹,

Varki

2000

Journal of Biological Chemistry

159

135

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“…Modifications in glycosylation have been noted to occur during inflammation (23)(24)(25); however, in the case of GluR3B, absence of the entire glycosylation tree appears to be required for GB cleavage, suggesting that inefficiency of glycosylation at this site is responsible for GB recognition. Both inflammation (especially viral infection) and trauma have long been viewed as candidates for initiating RE pathology, in part due to the close association with the onset of encephalitis, microglial nodules consisting of activated T cell infiltrates (26), and the subsequent appearance of clinical symptoms.…”

Section: Discussionmentioning

confidence: 99%

Cutting Edge: Granzyme B Proteolysis of a Neuronal Glutamate Receptor Generates an Autoantigen and Is Modulated by Glycosylation

Gahring

Carlson

Meyer

et al. 2001

The Journal of Immunology

115

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Autoimmune processes are initiated when tolerance to self-proteins fails to be established or maintained and immune cells are stimulated by self-Ags. Although intracellular autoantigens are common, the origin of extracellular autoantigens is poorly defined and possibly more dangerous. In this study, we considered a mechanism for the origin of an extracellular autoantigen from the neuronal glutamate receptor subunit 3 (GluR3) in Rasmussen’s encephalitis, a severe form of pediatric epilepsy. We demonstrate that specific cleavage of GluR3 by granzyme B (GB), a serine protease released by activated immune cells, can generate the GluR3B autoantigenic peptide, but only if an internal N-linked glycosylation sequon within the GluR3-GB recognition sequence (ISND*S) is not glycosylated. However, this N-glycon sequon while glycosylated normally is inefficiently used and glycosylation can fail. These results suggest that GB/N-glycon sites may escape normal tolerance mechanisms and contribute to autoantibody-mediated immune diseases.

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“…Moreover, the level of expression of the mRNA coding for ST3Gal-I correlates with the level of expression of the SM3 epitope and with tumor grade (19). Since core 2 branching by ␤6GlcNAc-transferases is inhibited by ␣2,3 sialylation of core 1 in vitro (25,26,27), it follows that ST3Gal-I could be a key controlling enzyme leading to simple mucin type core 1 glycosylation pattern in cancer cells. The question, however, is whether ST3Gal-I can effectively compete with C2GnT1 in vivo, leading to an inhibition in the formation of core 2 structures on MUC1 and whether this relates to exposure of the cancer-associated SM3 epitope.…”

mentioning

confidence: 99%

The Relative Activities of the C2GnT1 and ST3Gal-I Glycosyltransferases Determine O-Glycan Structure and Expression of a Tumor-associated Epitope on MUC1

Dalziel

Whitehouse

McFarlane

et al. 2001

Journal of Biological Chemistry

170

135

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In breast cancer, the O-glycans added to the MUC1 mucin are core 1-rather than core 2-based. We have analyzed whether competition by the glycosyltransferase, ST3Gal-I, which transfers sialic acid to galactose in the core 1 substrate, is key to this switch in MUC1 glycosylation that results in the expression of the cancer-associated SM3 epitope. Of the three enzymes known to convert core 1 to core 2, by the addition of GlcNAc to GalNAc in core1 C2GnT1 is the dominant enzyme expressed in normal breast tissue. Expression of C2GnT1 is low or absent in around 50% of breast cancers, whereas expression of ST3Gal-I is consistently increased. Mapping of ST3Gal-I and C2GnT1 within the Golgi pathway showed some overlap. To examine functional competition, the enzymes were overexpressed in T47D cells, which normally make core 1-based structures, have no detectable C2GnT1 activity and express the SM3 epitope. Overexpression of C2GnT1 resulted in loss of binding of SM3 to MUC1, accompanied by a decrease in the GalNAc/GlcNAc ratio, indicative of a switch to core 2 structures. Transfection of a C2GnT1 expressing line with ST3Gal

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Glycoproteins and Their Relationship to Human Disease

Cited by 169 publications

References 268 publications

New Aspects of Siglec Binding Specificities, Including the Significance of Fucosylation and of the Sialyl-Tn Epitope

New Aspects of Siglec Binding Specificities, Including the Significance of Fucosylation and of the Sialyl-Tn Epitope

Cutting Edge: Granzyme B Proteolysis of a Neuronal Glutamate Receptor Generates an Autoantigen and Is Modulated by Glycosylation

The Relative Activities of the C2GnT1 and ST3Gal-I Glycosyltransferases Determine O-Glycan Structure and Expression of a Tumor-associated Epitope on MUC1

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