Understanding exopolysaccharide byproduct formation in Komagataella phaffii fermentation processes for recombinant protein production

Steimann, Thomas; Heite, Zoe; Germer, Andrea; Blank, Lars Mathias; Büchs, Jochen; Mann, Marcel; Magnus, Jørgen Barsett

doi:10.1186/s12934-024-02403-3

Microb Cell Fact

2024

DOI: 10.1186/s12934-024-02403-3

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Understanding exopolysaccharide byproduct formation in Komagataella phaffii fermentation processes for recombinant protein production

Thomas Steimann,

Zoe Heite,

Andrea Germer

et al.

Abstract: Background Komagataella phaffii (Pichia pastoris) has emerged as a common and robust biotechnological platform organism, to produce recombinant proteins and other bioproducts of commercial interest. Key advantage of K. phaffii is the secretion of recombinant proteins, coupled with a low host protein secretion. This facilitates downstream processing, resulting in high purity of the target protein. However, a significant but often overlooked aspect is the presence of an unknown polysaccharide imp… Show more

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Cited by 3 publications

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Optimal fermentation conditions for growth and recombinant protein production in Pichia pastoris: Strain selection, ploidy level and carbon source

Shemesh,

Fishman

2024

Current Research in Food Science

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Optimal fermentation conditions for growth and recombinant protein production in Pichia pastoris: Strain selection, ploidy level and carbon source

Shemesh,

Fishman

2024

Current Research in Food Science

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Characterization of the exopolysaccharides produced by the industrial yeast Komagataella phaffii

Fischer,

Castagna,

Omer

et al. 2024

Journal of Industrial Microbiology and Biotechnology

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The yeast Komagataella phaffii has become a popular host strain among biotechnology startup companies for producing recombinant proteins for food and adult nutrition applications. K. phaffii is a host of choice due to its long history of safe use, open access to protocols and strains, a secretome free of host proteins and proteases, and contract manufacturing organizations with deep knowledge in bioprocess scale-up. However, a recent publication highlighted the abundance of an unknown polysaccharide that accumulates in the supernatant during fermentation. This poses a significant challenge in using K. phaffii as a production host. This polysaccharide leads to difficulties in achieving high purity products and requires specialized and costly downstream processing steps for removal. In this study, we describe the use of the common K. phaffii host strain YB-4290 for production of the bioactive milk protein lactoferrin. Upon purification of lactoferrin using membrane-based separation methods, significant amounts of carbohydrate were co-purified with the protein. It was determined that the carbohydrate is mostly composed of mannose residues with minor amounts of glucose and glucosamine. The polysaccharide fraction has an average molecular weight of 50 kDa and consists mainly of mannan, galactomannan and amylose. In addition, a large fraction of the carbohydrate has an unknown structure likely composed of oligosaccharides. Additional strains were tested in fermentation to further understand the source of the carbohydrates. The commonly used industrial hosts, BG10 and YB-4290, produce a basal level of exopolysaccharide; YB-4290 producing slightly more than BG10. Overexpression of recombinant protein stimulates exopolysaccharide production well above levels produced by the host strains alone. Overall, this study aims to provide a foundation for developing methods to improve the economics of recombinant protein production using K. phaffii as a production host.

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Avoiding overflow metabolite formation in Komagataella phaffii fermentations to enhance recombinant protein production

Steimann,

Wegmann,

Espinosa

et al. 2024

J Biol Eng

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Background Komagataella phaffii (K. phaffii), formerly known as Pichia pastoris, is a widely utilized yeast for recombinant protein production. However, due to the formation of overflow metabolites, carbon yields may be reduced and product recovery becomes challenging. This study investigates the impact of oxygen availability, different glucose concentrations and feeding strategies on overflow metabolite formation and recombinant protein production in K. phaffii. Results High glucose concentrations in batch fermentation, as applied in literature, lead to substantial ethanol accumulation, adversely affecting biomass yield and product formation. Increasing dissolved oxygen setpoints does not significantly reduce ethanol formation, indicating that glucose surplus, rather than oxygen availability, drives overflow metabolism. Decreasing the initial glucose concentration to 5 g/L and adapting the feeding strategy of the fed-batch phase, effectively mitigates overflow metabolite formation, improving biomass yield by up to 9% and product concentration by 40% without increasing process time. Conclusions These findings underscore the importance of a suitable glucose-feeding strategy in K. phaffii fermentation processes and highlight the detrimental effects of overflow metabolites on productivity. By optimizing carbon source utilization, it is possible to enhance fermentation efficiency and recombinant protein production with K. phaffii.

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Understanding exopolysaccharide byproduct formation in Komagataella phaffii fermentation processes for recombinant protein production

Cited by 3 publications

References 46 publications

Optimal fermentation conditions for growth and recombinant protein production in Pichia pastoris: Strain selection, ploidy level and carbon source

Optimal fermentation conditions for growth and recombinant protein production in Pichia pastoris: Strain selection, ploidy level and carbon source

Characterization of the exopolysaccharides produced by the industrial yeast Komagataella phaffii

Avoiding overflow metabolite formation in Komagataella phaffii fermentations to enhance recombinant protein production

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