毕赤酵母
聚糖
糖基化
甘露糖
生物化学
化学
糖蛋白
甘露糖苷酶
酵母
毕赤酵母
重组DNA
基因
作者
Stanley R. Hamilton,W. James Cook,S. Gomathinayagam,Irina Burnina,John A. Bukowski,David Hopkins,Simó Schwartz,Min Du,Nathan Sharkey,Piotr Bobrowicz,Sheryl Wildt,Huijuan Li,Terrance A. Stadheim,Juergen H. Nett
出处
期刊:Glycobiology
[Oxford University Press]
日期:2013-07-26
卷期号:23 (10): 1192-1203
被引量:55
标识
DOI:10.1093/glycob/cwt056
摘要
The methylotrophic yeast, Pichia pastoris, is an important organism used for the production of therapeutic proteins. Previously, we have reported the glycoengineering of this organism to produce human-like N-linked glycans but up to now no one has addressed engineering the O-linked glycosylation pathway. Typically, O-linked glycans produced by wild-type P. pastoris are linear chains of four to five α-linked mannose residues, which may be capped with β- or phospho-mannose. Previous genetic engineering of the N-linked glycosylation pathway of P. pastoris has eliminated both of these two latter modifications, resulting in O-linked glycans which are linear α-linked mannose structures. Here, we describe a method for the co-expression of an α-1,2-mannosidase, which reduces these glycans to primarily a single O-linked mannose residue. In doing so, we have reduced the potential of these glycans to interact with carbohydrate-binding proteins, such as dendritic cell-specific intercellular adhesion molecule-3-grabbing non-integrin. Furthermore, the introduction of the enzyme protein-O-linked-mannose β-1,2-N-acetylglucosaminyltransferase 1, resulted in the capping of the single O-linked mannose residues with N-acetylglucosamine. Subsequently, this glycoform was extended into human-like sialylated glycans, similar in structure to α-dystroglycan-type glycoforms. As such, this represents the first example of sialylated O-linked glycans being produced in yeast and extends the utility of the P. pastoris production platform beyond N-linked glycosylated biotherapeutics to include molecules possessing O-linked glycans.
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