Fathy M. El-Fasakhany scite author profile

Lymphocyte homing is initiated by the binding of Lselectin on lymphocytes to its ligands on high endothelial venules (HEV). Sialyl 6-sulfo Lewis X is a major capping group of L-selectin ligands. N-Acetylglucosamine (GlcNAc) 6-sulfation is essential for the ligand activity, and is catalyzed by GlcNAc 6-O-sulfotransferases (GlcNAc6STs) of which GlcNAc6ST-1 and GlcNAc6ST-2 are expressed in HEV. Here, we report that mice deficient in GlcNAc6ST-1 were impaired in the elaboration of sialyl 6-sulfo Lewis X in HEV and that an epitope of L-selectin ligands recognized by the MECA-79 antibody was greatly reduced or abolished in the abluminal aspect of HEV. Lymphocyte homing to peripheral lymph nodes, mesenteric lymph nodes, and Peyer's patches was significantly reduced in GlcNAc6ST-1 null mice. These results demonstrate that GlcNAc6ST-1 is involved in lymphocyte homing in vivo, and indicate that GlcNAc6ST-1 and -2 play complementary roles. The importance of GlcNAc6ST-1 is particularly highlighted by its involvement in lymphocyte homing to Peyer's patches where GlcNAc6ST-2 expression is undetectable.

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Functional Analysis of the Chondroitin 6-Sulfotransferase Gene in Relation to Lymphocyte Subpopulations, Brain Development, and Oversulfated Chondroitin Sulfates

Uchimura¹,

Kadomatsu²,

Nishimura³

et al. 2002

Journal of Biological Chemistry

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Chondroitin 6-sulfotransferase (C6ST) catalyzes the transfer of sulfate to position 6 of the N-acetylgalactosamine residue of chondroitin. To obtain direct evidence regarding the function of C6ST and its product, chondroitin 6-sulfate, in vivo, we isolated the mouse C6ST gene (C6st) and generated mice deficient in this gene (C6st ؊/؊ ) by embryonic stem cell technology. C6st؊/؊ mice were born at approximately the expected frequency and were viable through adulthood. In the spleen of C6st ؊/؊ mice, the level of chondroitin 6-sulfate became almost undetectable. Analyses of these knockout mice provided insights into the biosynthesis of oversulfated chondroitin sulfates in mice; chondroitin sulfate D in the brain of null mice and the cartilage and telencephalon of null embryos disappeared, whereas the chondroitin sulfate E level in the spleen and brain of the null mice was unchanged. Despite the disappearance of chondroitin sulfate D structure, brain development was normal in the C6st ؊/؊ mice. Further analysis revealed that the number of CD62L ؉ CD44 low T lymphocytes corresponding to naive T lymphocytes in the spleen of 5-6-week-old C6st ؊/؊ mice was significantly decreased, whereas those in other secondary lymphoid organs were unchanged. This finding suggested that chondroitin 6-sulfate plays a role in the maintenance of naive T lymphocytes in the spleen of young mice.

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Specificities ofN-Acetylglucosamine-6-O-sulfotransferases in Relation to L-selectin Ligand Synthesis and Tumor-associated Enzyme Expression

Uchimura¹,

El-Fasakhany²,

Hori³

et al. 2002

Journal of Biological Chemistry

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A Novel Human Gal-3-O-Sulfotransferase

El-Fasakhany¹,

Uchimura²,

Kannagi³

et al. 2001

Journal of Biological Chemistry

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Based on sequence homology with the previously cloned human cerebroside sulfotransferase (CST) cDNA, a novel sulfotransferase was cloned by screening a human fetal brain cDNA library. The novel sulfotransferase gene was present on human chromosome 11q13; the location was different from human CST and from that of the recently cloned human ␤-Gal 3-sulfotransferase (GP3ST). The isolated cDNA contained an open reading frame that encoded a predicted protein of 431 amino acid residues with type II transmembrane topology. The amino acid sequence showed 33% identity with that of human CST and 38% with that of human GP3ST. The recombinant enzyme expressed in Chinese hamster ovary cells catalyzed transfer of sulfate to position 3 of non-reducing ␤-galactosyl residues in Gal␤1-4GlcNAc. Type 2 chains served as good acceptors, whereas type 1 chains served as poor acceptors, and intermediate activity was found toward Gal␤1-3GalNAc. Therefore, the substrate specificity was different from that of GP3ST. CST activity was not detected in the newly cloned enzyme. Northern blotting analysis showed that the sulfotransferase mRNA was strongly expressed in the thyroid and moderately expressed in the brain, heart, kidney, and spinal cord. Co-transfection of the enzyme cDNA and fucosyltransferase III into COS-7 cells resulted in expression of (SO 4 -3)Gal␤1-4(Fuc␣1-3)GlcNAc and a small amount of (SO 4 -3)Gal␤1-3(Fuc␣1-4)GlcNAc. These results indicated that the newly cloned enzyme is a novel Gal-3-O-sulfotransferase and is involved in biosynthesis of the (SO 4 -3)Gal␤1-4(Fuc␣1-3)GlcNAc structure.Sulfation of carbohydrates attached to glycoproteins, glycolipids, and proteoglycans confers highly specific functions on these macromolecules. Critical roles of carbohydrate sulfation have been demonstrated in binding to growth factors, chemokines, hormones, anti-coagulation factors, and cell adhesion molecules (1-5). In addition to sulfatide, carbohydrates with 3Ј-sulfated ␤-Gal linkages are present in both O-glycans (6) and N-linked glycans (7). Recently, (SO 4 -3)Gal␤1-4(Fuc␣1-3)GlcNAc (3Ј-sulfo Le X

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N-Acetylglucosamine-6-O-Sulfotransferase-1: Production in the Baculovirus System and Its Applications to the Synthesis of a Sulfated Oligosaccharide and to the Modification of Oligosaccharides in Fibrinogen

El-Fasakhany¹

2003

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N-acetylglucosamine-6-O-sulfotransferase (GlcNAc6ST) catalyzes the transfer of sulfate from 3'-phosphoadenosine 5'-phosphosulfate to the C-6 position of non-reducing GlcNAc. Human GlcNAc6ST-1 was expressed as a fusion protein with protein A in an insect cell line (Tn 5 cells) using the baculovirus system. The recombinant enzyme was purified to homogeneity by IgG Sepharose column chromatography. The substrate specificity and the kinetic properties of the enzyme were similar to those of the enzyme expressed in the mammalian system. The purified recombinant enzyme was used to synthesize 6-sulfo GlcNAcbeta1-3Galbeta1-4Glc, which was identified by time of flight mass spectrometry. This sulfated trisaccharide served as a better substrate for microsomal galactosyltransferase from the mouse colon compared to 6-sulfo GlcNAc. The purified recombinant enzyme was also used to sulfate oligosaccharide chains on fibrinogen after enzymatic desialylation and degalactosylation to expose nonreducing GlcNAc residues. It is known that desialylation greatly increases the rate of clotting of fibrinogen after the addition of thrombin. Subsequent sulfation of desialylated and degalactosylated fibrinogen slightly decreased the rate of clotting. The recombinant GlcNAc6ST-1 is a useful reagent for 6-sulfate exposed GlcNAc residues both in oligosaccharides and in glycoproteins.

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