Chemistry: molecular biology and microbiology – Enzyme – proenzyme; compositions thereof; process for... – Transferase other than ribonuclease
Patent
1998-08-31
2000-10-24
Achutamurthy, Ponnathapu
Chemistry: molecular biology and microbiology
Enzyme , proenzyme; compositions thereof; process for...
Transferase other than ribonuclease
435183, 536 691, C12N 910, C08B 306
Patent
active
061365793
DESCRIPTION:
BRIEF SUMMARY
This invention relates to a method of producing .alpha.2,3 sialyltransferase.
This invention has particular but not exclusive application to production of an enzyme having eukaryotic .alpha.2,3-Gal.beta.1,3(4) GlcNAc sialyltransferase activity, and for illustrative purposes reference will be made to such application. However, it is to be understood that this invention could be used in other applications, such as production of assays for enzymes having eukaryotic .alpha.2,3-Gal.beta.1,3(4) GlcNAc sialyltransferase activity.
The glycosyltranferases are a highly polymorphic group of membrane-bound enzymes of endoplasmic reticulum and Golgi bodies that catalyze the transfer of a single monosaccharide unit from a nucleotide donor to the hydroxyl group of an acceptor saccharide in the biosynthesis of N-glycan (Asn-GlcNAc N-glycosidic linkage; GlcNAc, N-acetylglucosamine) and O-glycan (Ser/Thr-GalNAc, O-glycosidic linkage; GalNAc, N-acetylgalactosamine) moieties of glycoproteins and glycolipids.
The eukaryotic sialyltransferases comprise a family of glycosyltransferases that catalyze the transfer of N-acetylneuraminic acid (NeuAc), a sialic acid (SA), from CMP-SA to oligosaccharide chains of glycoconjugates. The addition of the SA normally terminates oligosaccharide chain elongation except for polysialic chains found on neural cell adhesion molecule and gangliosides.
Known eukaryotic sialyltransferases involved in the synthesis of N- and O-glycan derivatives of glycoprotein and glycolipid are summarized in Table 1, adapted from Palcic (1994 Methods in Enzymology, 230:300). In the table, the transferred sugar residue is in bold, and R represents the remainder of the acceptor glycoprotein, glycolipid or oligosaccharide chain.
TABLE 1 ______________________________________
Sialyltransferase (ST)
EC number Linkage synthesised
______________________________________
Gal(2-6)-ST(ST6N)
2.4.99.1 NeuAc.alpha.2->6Gal.beta.1->4GlcNAc-R
GalNAc.alpha.(2-6)-ST 2.4.99.4 NeuAc.alpha.2->6GalNAc.alpha.-R
(ST6OI)
Gal(2-3)-ST(ST3O) 2.4.99.4 NeuAc.alpha.2->3Gal.beta.1->4GalNAc.alpha.-R
Gal(2-3)-ST(ST3N) 2.4.99.6 NeuAc.alpha.2->3Gal.beta.1->3/4GlcNAc-R
______________________________________
NeuAc.alpha.2.fwdarw.3Gal.beta.1.fwdarw.3GalNAc-R N-Ac-neuramide
.alpha.(2-8)-2.4.99.8
NeuAc.alpha.2.fwdarw.8NeuAc.alpha.2.fwdarw.Gal.beta.-R sialyltransferase
Proteins produced by prokaryotes rarely possess N-terminal sugar chains, whereas eukaryotes exhibit many examples of such glycoproteins. .alpha.2,3-sialyltransferases are useful eukaryotic enzymes for in vitro synthesis of N-linked and O-linked sialyl derivatives of glycoproteins, for determinations of acceptors, and other qualitative and quantitative research of glycoproteins.
Only three glycosyltransferases are commercially available. These are the .beta.1,4-galactosyltransferase (EC 2.4.1.38/2.4.1.90) isolated from bovine and human milk, the .alpha.2,6 Gal.beta.1,4 GlcNAc-sialyltransferase (ST6N, EC 2.4.99.1) isolated from rat liver, and the .alpha.2,3 Gal.beta.1,3 GalNAc-sialyltrasferase (ST30, EC 2.4.99.4) isolated from porcine liver. The ST30 enzyme has been withdrawn from the market by its erstwhile suppliers. No commercial source of .alpha.2,3 Gal.beta.1,3(4) GalNAc-sialyltrasferase (ST3N) or other glycosyltransferases currently exist.
No high expression vectors for cloned transferases are widely available, and accordingly most researchers isolate the required glycosyltransferases from mammalian tissues. Isolations from mammalian tissues are complicated by the low natural abundance of the glycosyltransferases and the need for chromatography for partial purification. These factors combine to render the isolates prone to contamination with other glycosyltransferases as well as enzyme inhibitors, resulting in poor and inconsistent results.
A method for partial purification of ST3N from rat liver is described by Palicic (1994, Methods in Enzymology 230:300) following the procedure of Weistein et al (1982, J.Biol.Chem. 257:13835).
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Achutamurthy Ponnathapu
Commonwealth Scientific and Industrial Research Organization
Rao Manjunath N.
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