Abstract

BackgroundInducible high-level expression is favoured for recombinant protein production in Pichia pastoris. Therefore, novel regulated promoters are desired, ideally repressing heterologous gene expression during initial growth and enabling it in the production phase. In a typical large scale fed-batch culture repression is desired during the batch phase where cells grow on a surplus of e.g. glycerol, while heterologous gene expression should be active in the feed phase under carbon (e.g. glucose) limitation.ResultsDNA microarray analysis of P. pastoris wild type cells growing in glycerol-based batch and glucose-based fed batch was used for the identification of genes with both, strong repression on glycerol and high-level expression in the feed phase. Six novel glucose-limit inducible promoters were successfully applied to express the intracellular reporter eGFP. The highest expression levels together with strong repression in pre-culture were achieved with the novel promoters PG1 and PG6.Human serum albumin (HSA) was used to characterize the promoters with an industrially relevant secreted protein. A PG1 clone with two gene copies reached about 230% of the biomass specific HSA titer in glucose-based fed batch fermentation compared to a PGAP clone with identical gene copy number, while PG6 only achieved 39%. Two clones each carrying eleven gene copies, expressing HSA under control of PG1 and PG6 respectively were generated by post-transformational vector amplification. They produced about 1.0 and 0.7 g L-1 HSA respectively in equal fed batch processes. The suitability in production processes was also verified with HyHEL antibody Fab fragment for PG1 and with porcine carboxypeptidase B for PG6. Moreover, the molecular function of the gene under the control of PG1 was determined to encode a high-affinity glucose transporter and named GTH1.ConclusionsA set of novel regulated promoters, enabling induction without methanol, was successfully identified by using DNA microarrays and shown to be suitable for high level expression of recombinant proteins in glucose-based protein production processes.

Highlights

  • Inducible high-level expression is favoured for recombinant protein production in Pichia pastoris

  • While production of recombinant proteins in P. pastoris has been successfully achieved under control of the constitutive glyceraldehyde-3phosphate dehydrogenase promoter (PGAP), regulated promoters have several advantages: they enable initial biomass gain without product formation and allow tuning of the production process

  • Identification of novel promoters with desired induction properties A typical P. pastoris protein production process avoiding methanol induction starts with a glycerol batch which is followed by a glucose fed batch [10]

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Summary

Introduction

Inducible high-level expression is favoured for recombinant protein production in Pichia pastoris. Novel regulated promoters are desired, ideally repressing heterologous gene expression during initial growth and enabling it in the production phase. The methylotrophic yeast Pichia pastoris is widely used as a production platform for heterologous proteins. Latest developments in strain engineering for improved protein folding and secretion and glyco-engineering have recently been reviewed by Damasceno et al [1]. Another important target for strain development is the promoter driving expression of the heterologous gene. A potential impact of product accumulation on growth or viability of the cells can be prevented by decoupling growth from the production phase

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