Bovine colostrum CMP-NeuAc:Galβ(1→4)GlcNAc-R α(2→6)-sialyltransferase is involved in the synthesis of the terminal NeuAc α(2→6)GalNAcβ(1→4)GlcNAc sequence occurring on N-linked glycans of bovine milk glycoproteins

Nemansky, Martin; Eijnden, Dirk H. van den

doi:10.1042/bj2870311

Cited by 30 publications

(11 citation statements)

References 25 publications

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“…In the presence of this protein the Km for Me-3,6-Me2HexN(Me)Ac (Table 3), indicating that a disaccharide had been formed consisting of a terminal Nacetylhexosamine linked to the C-4 of another N-acetylhexosamine residue. Earlier this product had been identified as GalNAc,31-> 4GlcNAc by 1H-NMR spectroscopy (37). Incubation of ,34-GalNAcT, UDP-GalNAc, and Glc in the presence of a-LA resulted in a disaccharide that upon methylation analysis yielded two major products in almost equimolar amounts, Me-3,4,6-Me3HexN(Me)Ac and Me-2,3,6-Me3Hex (Table 3), in addition to two minor products, Me-2,3-Me2Hex and Me-2,6-Me2Hex, which probably resulted from some undermethylation or demethylation.…”

Section: Resultsmentioning

confidence: 99%

Alpha-lactalbumin affects the acceptor specificity of Lymnaea stagnalis albumen gland UDP-GalNAc:GlcNAc beta-R beta 1-->4-N-acetylgalactosaminyltransferase: synthesis of GalNAc beta 1-->4Glc.

Neeleman

Eijnden²

1996

Proc. Natl. Acad. Sci. U.S.A.

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The N,N'-diacetyllactosediamine (lacdiNAc) pathway of complex-type oligosaccharide synthesis is controlled by a UDP-GalNAc:GlcNAcf3-R j81-*4-N-acetylgalactosaminyltransferase (f34-GalNAcT) that acts analogously to the common UDP-Gal:GlcNAcj8-R 131-*4-galactosyltransferase ((34-GaiT). LacdiNAc-based chains particularly occur in invertebrates and cognate ,B4-GalNAcTs have been identified in the snail Lymnaea stagnalis, in two schistosomal species, and in several lepidopteran insect cell lines. Because of the similarity in reactions catalyzed by both enzymes, we investigated whetherL. stagnalis albumen gland (84-GalNAcT would share with mammalian f34-GaIT the property of interacting with a-lactalbumin (c-LA), a protein that only occurs in the lactating mammary gland, to form a complex in which the specificity of the enzyme is changed. It was found that, under conditions where (84-GalT forms the lactose synthase complex with a-LA, the snail .84-GalNAcT was induced by this protein to act on Glc with a > 100-fold increased efficiency, resulting in the formation of the lactose analog GalNAc,81-4Glc. This forms the second example of a glycosyltransferase, the specificity of which can be altered by a modifier protein. So far, however, no protein fraction could be isolated from L. stagnalis that could likewise interact with the 134-GalNAcT. Neither had lysozyme c, a protein that is homologous to a-LA, an effect on the specificity of the enzyme. These results raise the question of how the capability to interact with a-LA has been conserved in the snail enzyme during evolution without any apparent selective pressure. They also suggest that snail (4-GalNAcT and mammalian f84-GalT show similarity at a molecular level and allows the identification of the f34-GalNAcT as a candidate member of the f4-GaIT family.

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Section: Resultsmentioning

confidence: 99%

Alpha-lactalbumin affects the acceptor specificity of Lymnaea stagnalis albumen gland UDP-GalNAc:GlcNAc beta-R beta 1-->4-N-acetylgalactosaminyltransferase: synthesis of GalNAc beta 1-->4Glc.

Neeleman

Eijnden²

1996

Proc. Natl. Acad. Sci. U.S.A.

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“…This finding implies that for a Galfl(l~)GlcNAcfll-R specific fucosyltransferase the OH group at C-2' can be replaced by a NAc group without a gross effect on the enzyme activity. Interestingly, it has been found previously that the Galfl(1M)GlcNAcfll-R ~(2-6)-sialyltransferase whether isolated from rat liver [10,21] or bovine colostrum [22] also can act on GalNAcfl(1-4)GlcNAcfll-R with high efficiency. In view of these results it will be of interest to investigate whether other Galfl(1M)GlcNAcfll-R specific glycosyltransferases such as a(2 3)-sialyltransferase [23], a3-galactosyltransferase [24] and fl3-N-acetylglucosaminyltransferase [25] are similarly capable of acting on GalNAcfl(1-4)GlcNAcfll-R.…”

Section: Discussionmentioning

confidence: 99%

Conversion of GalNAcβ(1–4)GlcNAcβ‐OMe into GalNAcβ(1–4)‐[Fucα(1–3)]GlcNAcβ‐OMe using human milk α3/4‐fucosyltransferase synthesis of a novel terminal element in glycoprotein glycans

et al. 1993

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Incubation of GalNAcβ(1–4)GlcNAcβ‐OMe with GDP‐Fuc in the presence of human milk α3/4‐fucosyltransferase resulted in the formation of GalNAcβ(1–4)[Fucα(1–3)]GlcNAcβ‐OMe. Under conditions that led to complete α3‐fucosylation of Galβ(1–4)GlcNAcβ‐OEt, GalNAcβ(1–4)GlcNAcβ‐OMe was fucosylated for more than 85%. For the identification of the isolated fucosylated products one‐ and two‐ dimensional 1H‐NMR spectroscopy was applied. In vacuo molecular dynamics simulations of Galβ(1–4)[Fucα(1–3)]GlcNAcβ‐OEt and GalNAcβ(1–4)[Fucα(1–3)]GlcNAcβ‐OMe using the CHARMm based force field CHEAT, demonstrated only small differences between the conformations of these compounds. This illustrates the minor conformational influence of the substituent at C‐2′, i.e. a hydroxyl function versus a N‐acetyl group.

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“…Bovine and rat ST6Gal I sialyltransferases have been shown to utilize LacdiNAc as an acceptor in vitro (49,73,74), and the existence of sialylated LacdiNAc on mammalian glycoproteins suggests that these sialyltransferases, in addition to LacNAc, may also sialylate LacdiNAc termini in vivo. However, all previously characterized ST6Gal I sialyltransferases preferred LacNAc-terminating acceptors to other structures (57), including LacdiNAc (49,73,74). The recently characterized hST6Gal II also exhibited a preference for LacNAc, but its activity toward LacdiNAc structures was not examined (7,8).…”

Section: Discussionmentioning

confidence: 99%

Functional Characterization of Drosophila Sialyltransferase

Koles

Irvine

Panin

2004

Journal of Biological Chemistry

113

111

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Sialylation is an important carbohydrate modification of glycoconjugates in the deuterostome lineage of animals. By contrast, the evidence for sialylation in protostomes has been scarce and somewhat controversial. In the present study, we characterize a Drosophila sialyltransferase gene, thus providing experimental evidence for the presence of sialylation in protostomes. This gene encodes a functional ␣2-6-sialyltransferase (SiaT) that is closely related to the vertebrate ST6Gal sialyltransferase family, indicating an ancient evolutionary origin for this family. Characterization of recombinant, purified Drosophila SiaT revealed a novel acceptor specificity as it exhibits highest activity toward GalNAc␤1-4GlcNAc carbohydrate structures at the non-reducing termini of oligosaccharides and glycoprotein glycans. Oligosaccharides are preferred over glycoproteins as acceptors, and no activity toward glycolipid acceptors was detected. Recombinant Drosophila SiaT expressed in cultured insect cells possesses in vivo and in vitro autosialylation activity toward ␤-linked GalNAc termini of its own N-linked glycans, thus representing the first example of a sialylated insect glycoconjugate. In situ hybridization revealed that Drosophila SiaT is expressed during embryonic development in a tissue-and stage-specific fashion, with elevated expression in a subset of cells within the central nervous system. The identification of a SiaT in Drosophila provides a new evolutionary perspective for considering the diverse functions of sialylation and, through the powerful genetic tools available in this system, a means of elucidating functions for sialylation in protostomes.

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Bovine colostrum CMP-NeuAc:Galβ(1→4)GlcNAc-R α(2→6)-sialyltransferase is involved in the synthesis of the terminal NeuAc α(2→6)GalNAcβ(1→4)GlcNAc sequence occurring on N-linked glycans of bovine milk glycoproteins

Cited by 30 publications

References 25 publications

Alpha-lactalbumin affects the acceptor specificity of Lymnaea stagnalis albumen gland UDP-GalNAc:GlcNAc beta-R beta 1-->4-N-acetylgalactosaminyltransferase: synthesis of GalNAc beta 1-->4Glc.

Alpha-lactalbumin affects the acceptor specificity of Lymnaea stagnalis albumen gland UDP-GalNAc:GlcNAc beta-R beta 1-->4-N-acetylgalactosaminyltransferase: synthesis of GalNAc beta 1-->4Glc.

Conversion of GalNAcβ(1–4)GlcNAcβ‐OMe into GalNAcβ(1–4)‐[Fucα(1–3)]GlcNAcβ‐OMe using human milk α3/4‐fucosyltransferase synthesis of a novel terminal element in glycoprotein glycans

Functional Characterization of Drosophila Sialyltransferase

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