Expression of glycoproteins bearing complex human-like glycans with galactose terminal in Hansenula polymorpha

Glycoproteins derived from Hansenula polymorpha can not be used for therapeutic purposes due to their high-mannose type asparagine-linked (N-linked) glycans, which result in immune reactions and poor pharmacokinetic behaviors in human body. Previously, we reported that the trimannosyl core N-linked glycans (Man₃GlcNAc₂) intermediate can be generated in endoplasmic reticulum in HpALG3 and HpALG11 double-mutant H. polymorpha. Here, we describe the further modification of the glycosylation pathway in this double-defect strain to express glycoproteins with complex human-like glycans. After eliminating the impact of HpOCH1, three glycosyltransferases were introduced into this triple-mutant strain. When human β-1,2-N-acetylglucosaminyltransferase I (hGnTI) was efficiently targeted in early Golgi, more than 95 % glycans attached to the glycoproteins were added one N-acetylglucosamine (GlcNAc). With subsequently introduction of rat β-1,2-N-acetylglucosaminyltransferase II (rGnTII) and human β-1,4-galactosyltransferase I (hGalTI), several glycoengineered strains can produce glycoproteins bearing glycans with terminal N-acetylglucosamine or galactose. The expression of glycoproteins with glycan Gal₂GlcNAc₂Man₃GlcNAc₂ represents a significant step toward the ability to express fully humanized glycoproteins in H. polymorpha. Furthermore, several shake-flask and bioreactor fermentation experiments indicated that, although the cells do display a reduction in growth rate, the glycoengineered strains are still suitable for high-density fermentation.