Takayoshi Torii scite author profile

We have previously cloned chondroitin 6-sulfotransferase (C6ST) cDNA from chick embryo chondrocytes. C6ST catalyzes sulfation of chondroitin, keratan sulfate, and sialyl N-acetyllactosamine oligosaccharides. In this study, we report the cloning and characterization of a novel sulfotransferase that catalyzes sulfation of keratan sulfate. This new sulfotransferase cDNA clone was obtained from a human fetal brain library by cross-hybridization with chick C6ST cDNA. The cDNA clone obtained contains a single open reading frame that predicts a type II transmembrane protein composed of 411 amino acid residues. When the cDNA was introduced into a eukaryotic expression vector and transfected in COS-7 cells, keratan sulfate sulfotransferase activity was overexpressed, but C6ST activity was not increased over that of the control. Structural analysis of 35 S-labeled glycosaminoglycan, which was formed from keratan sulfate by the reaction with 35 S-labeled 3-phosphoadenosine 5-phosphosulfate and the recombinant sulfotransferase, showed that keratan sulfate was sulfated at position 6 of Gal residues. On the basis of the acceptor substrate specificity, we propose keratan sulfate Gal-6-sulfotransferase (KSGal6ST) for the name of the newly cloned sulfotransferase. KSGal6ST was assigned to chromosome 11p11.1-11.2 by fluorescence in situ hybridization. Among various human adult tissues, a 2.8-kilobase message of KSGal6ST was expressed mainly in the brain. When poly(A) ؉ RNAs from the chick embryo cornea and brain were probed with the human KSGal6ST cDNA in Northern hybridization, a clear band with about 2.8 kilobases was detected. These observations suggest that KSGal6ST may participate in the biosynthesis of keratan sulfate in the brain and cornea.Keratan sulfate proteoglycans (lumican and keratocan) are present in the cornea as the major class of proteoglycan (1, 2) and are thought to play an important role in the corneal transparency (3). A synaptic vesicle membrane glycoprotein, SV2, has been shown to be a keratan sulfate proteoglycan (4). Aggrecan from the cartilage (5) and 3H1 proteoglycan from adult brain (6) contain both chondroitin sulfate and keratan sulfate. Sulfate group of keratan sulfate appears to be important for the biological function of keratan sulfate, because degree of the sulfation of keratan sulfate increased during the corneal development (7, 8) and undersulfated keratan sulfate is synthesized by macular corneal dystrophy (9). Keratan sulfate bears sulfate groups on both GlcNAc and Gal residues. Sulfotransferase activity responsible for the sulfation of keratan sulfate was previously reported (10), but specificity of the enzyme remains obscure because no purified keratan sulfate sulfotransferase (KSST) 1 has so far been obtained. We have previously purified and cloned chondroitin 6-sulfotransferase (C6ST) from the culture medium of chick embryo chondrocytes (11,12). We found that C6ST catalyzes sulfation of chondroitin, keratan sulfate, and sialyl N-acetyllactosamine oligosaccharides (11,13,14). This enzyme...

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Sulfation of sialyl N-acetyllactosamine oligosaccharides and fetuin oligosaccharides by keratan sulfate Gal-6-sulfotransferase

Torii

Fukuta

Habuchi

2000

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We have previously cloned keratan sulfate Gal-6-sulfotransferase (KSGal6ST), which transfers sulfate from 3'-phosphoadenosine 5'-phosphosulfate to position 6 of Gal residue of keratan sulfate. In this study, we examined whether KSGal6ST could transfer sulfate to sialyl N -acetyllactosamine oligosaccharides or fetuin oligo-saccharides. KSGal6ST expressed in COS-7 cells catalyzed transfer of sulfate to NeuAcalpha2-3Galbeta1-4GlcNAc (3'SLN), NeuAcalpha2-3Galbeta1-4GlcNAcbeta1-3Galbeta1-4Gl cNAc (SL1L1), NeuAcalpha2-3Galbeta1-4(6-sulfo)GlcNAcbeta1-3(6-sulfo) Galbeta1-4(6-su lfo)GlcNAc (SL2L4), and their desialylated derivatives except for Galbeta1-4GlcNAc, but not to NeuAcalpha2-3Galbeta1-4(Fucalpha1-3)GlcNAc (SLex). When the sulfated product formed from 3'SLN was degraded with neuraminidase and reduced with NaBH(4), the resulting sulfated disaccharide alditol showed the same retention time in SAX-HPLC as that of [(3)H]Gal(6SO(4))beta1-4GlcNAc-ol. KSGal6ST also catalyzed sulfation of fetuin. When the sulfated oligosaccharides released from the sulfated fetuin after sequential digestion with proteinase and neuraminidase were subjected to a reaction sequence of hydrazin-olysis, deaminative cleavage and NaBH(4)reduction, the major product was co-eluted with [(3)H]Gal(6SO(4))beta1-4anhydromannitol in SAX-HPLC. These observations show that KSGal6ST is able to sulfate position 6 of Gal residue of 3'SLN and fetuin oligosaccharides. The relative rates of the sulfation of SL2L4 was much higher than the rate of the sulfation of keratan sulfate. These results suggest that KSGal6ST may function in the sulfation of sialyl N -acetyllactosamine oligosaccharide chains attached to glycoproteins.

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Practical Synthesis of Optically Active Styrene Oxides via Reductive Transformation of 2-Chloroacetophenones with Chiral Rhodium Catalysts

et al. 2002

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[reaction: see text] A practical method for the synthesis of optically active styrene oxides has been developed via formation of optically active 2-chloro-1-phenylethanols generated by reductive transformation of ring-substituted 2-chloroacetophenones. The optically active alcohols with up to 98% ee are obtainable from the asymmetric reduction of acetophenones with an S/C = 1000-5000 with a formic acid triethylamine mixture containing a well-defined chiral Rh complex, CpRhCl[(R,R)-Tsdpen].

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Takayoshi Torii

Molecular Cloning and Characterization of Human Keratan Sulfate Gal-6-Sulfotransferase

Sulfation of sialyl N-acetyllactosamine oligosaccharides and fetuin oligosaccharides by keratan sulfate Gal-6-sulfotransferase

Practical Synthesis of Optically Active Styrene Oxides via Reductive Transformation of 2-Chloroacetophenones with Chiral Rhodium Catalysts

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