Engineering the Pichia pastoris N-glycosylation pathway using the glycoswitch technology

Abstract

Pichia pastoris is an important host for recombinant protein production. As a protein production platform, further development for therapeutic glycoproteins has been hindered by the high-mannose-type N-glycosylation common to yeast and fungi. Such N-glycans can complicate downstream processing, might be immunogenic or cause the rapid clearance of the glycoprotein from circulation. In recent years, much effort has gone to engineering the N-glycosylation pathway of Pichia pastoris to mimic the human N-glycosylation pathway. This can be of pivotal importance to generate the appropriate glycoforms of therapeutically relevant glycoproteins or to gain a better understanding of structure-function relationships. This chapter describes the methodology to create such glyco-engineered Pichia pastoris strains using the GlycoSwitch ®. This strategy consists of the disruption of an endogenous glycosyltransferase and the heterologous expression of a glycosidase or glycosyltransferase targeted to the Endoplasmic Reticulum or the Golgi of the host. For each step in the process, we describe the transformation procedure, small-scale screening and we also describe how to perform DNA-Sequencer-Aided Fluorophore-Assisted Capillary Electrophoresis (DSA-FACE) to select for clones with the appropriate N-glycosylation profi le. The steps described in this chapter can be followed in an iterative fashion in order to generate clones of Pichia pastoris expressing heterologous proteins with humanized N-glycans.