Pushing and pulling proteins into the yeast secretory pathway enhances recombinant protein secretion |
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Affiliation: | 1. Austrian Centre of Industrial Biotechnology (ACIB GmbH), Vienna, Austria;2. Department of Biotechnology, Institute of Microbiology and Microbial Biotechnology (IMMB), University of Natural Resources and Life Sciences (BOKU), Vienna, Austria |
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Abstract: | Yeasts and especially Pichia pastoris (syn Komagataella spp.) are popular microbial expression systems for the production of recombinant proteins. One of the key advantages of yeast host systems is their ability to secrete the recombinant protein into the culture media. However, secretion of some recombinant proteins is less efficient. These proteins include antibody fragments such as Fabs or scFvs. We have recently identified translocation of nascent Fab fragments from the cytosol into the endoplasmic reticulum (ER) as one major bottleneck. Conceptually, this bottleneck requires engineering to increase the flux of recombinant proteins at the translocation step by pushing on the cytosolic side and pulling on the ER side. This engineering strategy is well-known in the field of metabolic engineering. To apply the push-and-pull strategy to recombinant protein secretion, we chose to modulate the cytosolic and ER Hsp70 cycles, which have a key impact on the translocation process. After identifying the relevant candidate factors of the Hsp70 cycles, we combined the push-and-pull factors in a single strain and achieved synergistic effects for antibody fragment secretion. With this concept we were able to successfully engineer strains and improve protein secretion up to 5-fold for different model protein classes. Overall, titers of more than 1.3 g/L Fab and scFv were reached in bioreactor cultivations. |
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Keywords: | Yeast Recombinant protein production Strain engineering Protein secretion Push-and-pull concept Hsp70 chaperone cycle |
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