Chemo-enzymatic synthesis of the glucagon containing N-linked oligosaccharide and its characterization.

The chemo-enzymatic synthesis of an artificially N-glycosylated derivative of glucagon, a peptide hormone that regulates the blood sugar level, is described. We synthesized the glycosylated glucagon by chemical synthesis of an N-acetylglucosaminyl peptide and enzymatic transfer of an oligosaccharide using the transglycosylation activity of the glycosynthase-like mutant of Mucor hiemalis endo-ß-N-acetylglucosaminidase (Endo-M) and sialo-oligosaccharide oxazoline as a donor substrate. The sialo-oligosaccharide-attached glucagon synthesized showed high resistance against protease degradation and stimulated the release of glucose from mouse hepatocytes when added to cells. The synthetic glucagon showed slightly higher activity than native glucagon and has potential as a therapeutic agent for treating diabetic patients.

Efficient transfer of sialo-oligosaccharide onto proteins by combined use of a glycosynthase-like mutant of Mucor hiemalis endoglycosidase and synthetic sialo-complex-type sugar oxazoline.

BACKGROUND: An efficient method for synthesizing homogenous glycoproteins is essential for elucidating the structural and functional roles of glycans of glycoproteins. We have focused on the transglycosylation activity of endo-ß-N-acetylglucosaminidase from Mucor hiemalis (Endo-M) as a tool for glycoconjugate syntheses, since it can transfer en bloc the oligosaccharide of not only high-mannose type but also complex-type N-glycan onto various acceptors having an N-acetylglucosamine residue. However, there are two major bottlenecks for its practical application: the low yield of the transglycosylation product and the difficulty to obtain the activated sugar oxazoline substrate, especially the sialo-complex type one. METHODS: We carried out the transglycosylation using a glycosynthase-like N175Q mutant of Endo-M, which was found to possess enhanced transglycosylation activity with sugar oxazoline as a donor substrate, in combination with an easy preparation of the sialo-complex-type sugar oxazoline from natural sialoglycopeptide in egg yolk. RESULTS: Endo-M-N175Q showed efficient transglycosylation toward sialo-complex-type sugar oxazoline onto bioactive peptides and bovine ribonuclease B, and each sialylated compound was obtained in significantly high yield. CONCLUSIONS: Highly efficient and simple chemo-enzymatic syntheses of various sialylated compounds were enabled, by a combination of a simple synthesis of sialo-complex-type sugar oxazoline and the Endo-M-N175Q catalyzed transglycosylation. GENERAL SIGNIFICANCE: Our method would be very useful for a practical synthesis of biologically important glycopeptides and glycoproteins.

Efficient glycosynthase mutant derived from Mucor hiemalis endo-beta-N-acetylglucosaminidase capable of transferring oligosaccharide from both sugar oxazoline and natural N-glycan.

Endo-M, an endo-beta-N-acetylglucosaminidase from Mucor hiemalis, is a family 85 glycoside hydrolase. This enzyme is unique in that it can transfer en bloc the oligosaccharide of various types of N-glycans onto different acceptors, and thereby it enzymatically generates diverse glycoconjugates. In this study, we performed mutational and kinetic studies focusing on a key catalytic asparagine 175 of Endo-M. We have shown that most of the Asn-175 mutants had significantly diminished hydrolysis activity but acted as glycosynthases capable of using synthetic sugar oxazoline for transglycosylation. Our results confirm the critical role of this asparagine residue in promoting the formation of an oxazolinium ion intermediate in the first step of the substrate-assisted catalysis. Interestingly, the N175Q mutant was found to possess dramatically enhanced glycosynthase-like activity with sugar oxazoline in comparison with N175A and a transglycosidase-like activity with "natural" N-glycan as well. These results also implicated the significance of amide side chain in the asparagine 175 of Endo-M for promoting oxazoline transglycosylation in the second step of the catalysis. The highly efficient syntheses of glycopeptides/glycoproteins by N175Q combined with synthetic sugar oxazolines or natural N-glycan substrates were exemplified. In addition, we also identified several previously unknown residues that seem to play a role in the catalysis of Endo-M.