Theodora de Vries scite author profile

Helicobacter pylori is involved in gastritis, gastric and duodenal ulcers, gastric adenocarcinoma, and mucosaassociated lymphoid tissue lymphoma. Earlier studies already suggested a role for autoimmune phenomena in H. pylori-linked disease. We now report that lipopolysaccharides (LPS) of H. pylori express Lewis y, Lewis x, and H type I blood group structures similar to those commonly occurring in gastric mucosa. Immunization of mice and rabbits with H. pylori cells or purified LPS induced an anti-Lewis x or y or anti-H type I response, yielding antibodies that bound human and murine gastric glandular tissue, granulocytes, adenocarcinoma, and mucosa-associated lymphoid tissue lymphoma cells. Experimental oral infections in mice or natural infection in humans yielded anti-Lewis antibodies also. The ␤ chain of gastric H ؉ ,K ؉ -ATPase, the parietal cell proton pump involved in acid secretion, contained Lewis y epitopes; gastric mucin contained Lewis x and y antigenic determinants. Growth in mice of a hybridoma that secretes H. pylori-induced anti-Lewis y monoclonal antibodies resulted in histopathological evidence of gastritis, which indicates a direct pathogenic role for anti-Lewis antibodies. In conclusion, our observations demonstrate that molecular mimicry between H. pylori LPS and the host, based on Lewis antigens, and provide understanding of an autoimmune mechanism for H. pylori-associated type B gastritis.

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Fucosyltransferases: structure/function studies

Vries

Knegtel²,

Holmes³

et al. 2001

Glycobiology

172

110

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Alpha3-fucosyltransferases (alpha3-FucTs) catalyze the final step in the synthesis of a range of important glycoconjugates that function in cell adhesion and lymphocyte recirculation. Six members of this family of enzymes have been cloned from the human genome, and their expression pattern has been shown to be highly regulated. Each enzyme has a unique acceptor substrate binding pattern, and each generates a unique range of fucosylated products. Results from a range of studies have provided information on amino acids in the FucT sequence that contribute to the differential acceptor specificity for the FucTs, and to the binding of the nucleotide sugar donor GDP-fucose. These results, in conjunction with results obtained from the analysis of the disulfide bond pattern, have provided useful clues about the spatial distribution of amino acids that influence or directly contribute to substrate binding. This information is reviewed here, and a molecular fold prediction is presented which has been constructed based on the available information and current modeling methodology.

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Acceptor Specificity of Different Length Constructs of Human Recombinant α1,3/4-Fucosyltransferases

Vries

Srnka

Palcic

et al. 1995

Journal of Biological Chemistry

139

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The acceptor specificity of recombinant full-length, membrane-bound fucosyltransferases, expressed in COS-7 cells, and soluble, protein-A chimeric forms of alpha 1,3-fucosyltransferase (Fuc-T) III, Fuc-TIV, and Fuc-TV was analyzed toward a broad panel of oligosaccharide, glycolipid, and glycoprotein substrates. Our results on the full-length enzymes confirm and extend previous studies. However, chimeric Fuc-Ts showed increased activity toward glycoproteins, whereas chimeric Fuc-TIII and Fuc-TV had a decreased activity with glycosphingolipids, compared to the full-length enzymes. Unexpectedly, chimeric Fuc-TV exhibited a GDP-fucose hydrolyzing activity. In substrates with multiple acceptor sites, the preferred site of fucosylation was identified. Fuc-TIII and Fuc-TV catalyzed fucose transfer exclusively to OH-3 of glucose in lacto-N-neotetraose and lacto-N-tetraose, respectively, as was demonstrated by 1H NMR spectroscopy. Thin layer chromatography immunostaining revealed that FucT-IV preferred the distal GlcNAc residue in nLc6Cer, whereas Fuc-TV preferred the proximal Gl-cNAc residue. Incubation of Fuc-TIV or Fuc-TV with VI3NeuAcnLc6Cer resulted in products with the sialyl-LewisX epitope as well as the VIM-2 structure. To identify polar groups on acceptors that function in enzyme binding, deoxygenated substrate analogs were tested as acceptors. All three Fuc-Ts had an absolute requirement for a hydroxyl at C-6 of galactose in addition to the accepting hydroxyl at C-3 or C-4 of GlcNAc.

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Acceptor specificity of GDP-Fuc:Galβ1→4GlcNAc-R α3-fucosyltransferase VI (FucT VI) expressed in insect cells as soluble, secreted enzyme

Vries¹,

Palcic

Schoenmakers³

et al. 1997

Glycobiology

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As an extension of previous study (de Vries et al., 1995, J. Biol. Chem., 270, 8712-8722) the acceptor specificity of recombinant FucT VI, expressed in insect cells as soluble enzyme, and purified from the growth medium by affinity chromatography, was analyzed toward a broad panel of oligosaccharide and glycoprotein substrates. It was found that FucT VI effectively utilizes any type-2-chain based structure (Gal beta 1-->4GlcNAc-R). Neutral as well as sialylated structures are fucosylated with high efficiency. To identify polar groups on acceptors that function in enzyme binding, deoxygenated substrate analogs were tested as acceptors. FucT VI had an absolute requirement for a hydroxyl at C-6 of galactose in addition to the accepting hydroxyl at C-3. Thus, FucT VI, although different from FucT III, IV, and V in acceptor properties, seems to bind the acceptor in a similar way.

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Acceptor specificity of the human leukocyte 3 fucosyltransferase: role of FucT-VII in the generation of selectin ligands

Britten

Eijnden

McDowell³

et al. 1998

Glycobiology

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The alpha3 fucosyltransferase, FucT-VII, is one of the key glycosyltransferases involved in the biosynthesis of the sialyl Lewis X (sLex) antigen on human leukocytes. The sialyl Lewis X antigen (NeuAcalpha(2-3)Galbeta(1-4)[Fucalpha(1-3)]GlcNAc-R) is an essential component of the recruitment of leukocytes to sites of inflammation, mediating the primary interaction between circulating leukocytes and activated endothelium. In order to characterize the enzymatic properties of the leukocyte alpha3 fucosyltransferase FucT-VII, the enzyme has been expressed in Trichoplusia ni insect cells. The enzyme is capable of synthesizing both sLexand sialyl-dimeric-Lexstructures in vitro , from 3'-sialyl-lacNAc and VIM-2 structures, respectively, with only low levels of fucose transfer observed to neutral or 3'-sulfated acceptors. Studies using fucosylated NeuAcalpha(2-3)-(Galbeta(1-4)GlcNAc)3-Me acceptors demonstrate that FucT-VII is able to synthesize both di-fucosylated and tri-fucosylated structures from mono-fucosylated precursors, but preferentially fucosylates the distal GlcNAc within a polylactosamine chain. Furthermore, the rate of fucosylation of the internal GlcNAc residues is reduced once fucose has been added to the distal GlcNAc. These results indicate that FucT-VII is capable of generating complex selectin ligands, in vitro , however the order of fucose addition to the lactosamine chain affects the rate of selectin ligand synthesis.

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Plant members of the α1→3/4‐fucosyltransferase gene family encode an α1→4‐fucosyltransferase, potentially involved in Lewis^a biosynthesis, and two core α1→3‐fucosyltransferases¹

et al. 2001

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Three putative K K1C C3/4-fucosyltransferase (K K1C C3/ 4-FucT) genes have been detected in the Arabidopsis thaliana genome. The products of two of these genes have been identified in vivo as core K K1C C3-FucTs involved in N-glycosylation. An orthologue of the third gene was isolated from a Beta vulgaris cDNA library. The encoded enzyme efficiently fucosylates GalL L1C C3GlcNAcL L1C C3GalL L1C C4Glc. Analysis of the product by 400 MHz 1 H-nuclear magnetic resonance spectroscopy showed that the product is K K1C C4-fucosylated at the Nacetylglucosamine residue. In vitro, the recombinant B. vulgaris K K1C C4-FucT acts efficiently only on neutral type 1 chain-based glycan structures. In plants the enzyme is expected to be involved in Lewis a formation on N-linked glycans. ß 2001 Published by Elsevier Science B.V. on behalf of the Federation of European Biochemical Societies.

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The use of human milk fucosyltransferase in the synthesis of tumor‐associated trimeric X determinants

Vries

Norberg

Lönn

et al. 1993

European Journal of Biochemistry

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We have studied the fucosylation of a chemically synthesized trimer of N-acetyllactosamine [(LacNAc),-EtPhNHCOCF,] with a fucosyltransferase preparation from normal human milk, which utilizes both type-1 and type-2 structures, whether sialylated or not. When fucose residues were added enzymically to the (LacNAc),-EtPhNHCOCF, hexasaccharide, mono-, di-, or trifucosylated oligosaccharide species were formed, containing the LewisX determinant (Gal~l+4[Fucal+3]GlcNAcPl-3). With excess GDP-fucose and prolonged reaction times, the trifucosylated product was formed in almost quantitative yield. Kinetic analysis of the fucosylation reaction indicated that there is a significant difference in the rate of transfer of the first, second and third fucose residues onto the acceptor molecule. The location of the fucose residues in the monofucosylated and difucosylated intermediate products was assessed by analyzing the digests obtained after endo-P-galactosidase treatment by HPLC and reverse-phase chromatography. In addition, the fucosylated (LacNAc),-EtPhNHCOCF, structures were characterized by HPLC and were identified by 400-MHz 'H-NMR spectroscopy. There is a highly preferred order in which the fucosyl residues are attached to (LacNAc),-EtPhNHCOCF,. In the major pathway, the first two fucose residues are transferred with equal preference to the medial (GN3) and proximal (GN1) GlcNAc residues, whereas the third fucose is attached to the distal (GN5) GlcNAc residue. These results are of relevance in understanding the role of a-3-fucosyltransferase in the biosynthesis of LewisX-related cell-surface carbohydrate structures, that function as ligands for selectin-type cell-adhesion molecules and may play a role in the invasion and metastasis of several carcinoma.

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High level of α₁‐acid glycoprotein in human seminal plasma is associated with high branching and expression of Lewis^a groups on its glycans: Supporting evidence for a prostatic origin

Poland¹,

Kratz²,

Vermeiden³

et al. 2002

The Prostate

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