Purification and Characterization of a Lymph Node Sulfotransferase Responsible for 6-O-Sulfation of the Galactose Residues in 2′-Fucosyllactose and Other Sialyl LewisX-Related Sugars

Purification and Characterization of a Lymph Node Sulfotransferase Responsible for 6-O-Sulfation of the Galactose Residues in 2′-Fucosyllactose and Other Sialyl LewisX-Related Sugars

A microsomal galactose-6-O-sulfotransferase (Gal-6-O-Stase) from porcine lymph nodes, able to transfer the sulfate group from adenosine 3′-phosphate 5′-phosphosulphate (PAPS) onto 2′-fucosyllactose (2′-FL) and other sialyl LewisX(sLex)-related sugars, has been purified and characterized. The enzyme...

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Bibliographic Details
Published in:Biochemical and biophysical research communications Vol. 256; no. 1; pp. 170 - 176
Main Authors: Shailubhai, Kunwar, Khai Huynh, Q., Boddupalli, Hymavathi, Yu, Hong H., Jacob, Gary S.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 05-03-1999
Subjects:
Amino Acid Sequence
Animals
Binding, Competitive
Chromatography, Thin Layer
Galactose - metabolism
Glycoproteins - chemistry
Glycoproteins - isolation & purification
Glycoproteins - metabolism
Hydrogen-Ion Concentration
Kinetics
Lactose - analogs & derivatives
Lactose - metabolism
Lectins - metabolism
Lymph Nodes - enzymology
Microsomes - enzymology
Molecular Sequence Data
Molecular Weight
Oligosaccharides - metabolism
Phosphoadenosine Phosphosulfate - analogs & derivatives
Phosphoadenosine Phosphosulfate - metabolism
Photoaffinity Labels - metabolism
Sialic Acids - metabolism
Substrate Specificity
Sulfates - metabolism
Sulfotransferases - chemistry
Sulfotransferases - isolation & purification
Sulfotransferases - metabolism
Swine
Trisaccharides - metabolism
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Summary:A microsomal galactose-6-O-sulfotransferase (Gal-6-O-Stase) from porcine lymph nodes, able to transfer the sulfate group from adenosine 3′-phosphate 5′-phosphosulphate (PAPS) onto 2′-fucosyllactose (2′-FL) and other sialyl LewisX(sLex)-related sugars, has been purified and characterized. The enzyme was purified to about 35,000-fold by a combination of conventional and affinity chromatographic steps. The purified enzyme preparation exhibited two protein bands at around 80-90 and 170 kDa on 7.5% SDS-PAGE under reducing conditions. Both of these protein bands always comigrated in the gel when peak fractions containing Gal-6-O-Stase activity from the 3′,5′-ADP-agarose column were subjected to 6% SDS-PAGE under reducing conditions. These protein bands also showed similar binding patterns to WGA (wheat germ agglutinin), Con A (concanvalin A), and EBA (elderberry agglutinin). Similarly, when the enzyme preparation after the hydroxylapatite step was photolabeled with 8-azido-[32P]-PAPS, both 80-90 and 170 kDa protein bands were labeled in a specific manner. These results suggest a possible association of these two protein bands with the enzyme activity. The carbohydrate substrate specificity of this enzyme suggests that it is well suited to catalyze the sulphonation at the C-6 position of the galactose residues of oligosaccharides that are structurally similar to sLex. Furthermore, a survey of several porcine organs revealed that this enzyme was selectively expressed in lymphoid tissues such as lymph nodes (peripheral and mesenteric) and spleen. These findings suggest that this enzyme may be involved in the assembly of 3′-sialyl-6′-sulfo Lewisx, the major capping group of HEV-ligands for L-selectin.
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ISSN:0006-291X
1090-2104
DOI:10.1006/bbrc.1999.0258