优化毕赤酵母糖基工程培养工艺用于商业化抗体生产。

Optimization of a glycoengineered Pichia pastoris cultivation process for commercial antibody production.

机构信息

Merck & Co., Inc., Bioprocess Research & Development, Rahway, NJ 07065, USA.

出版信息

Biotechnol Prog. 2011 Nov-Dec;27(6):1744-50. doi: 10.1002/btpr.695. Epub 2011 Oct 14.

PMID:22002933

Abstract

Glycoengineering enabled the production of proteins with human N-linked glycans by Pichia pastoris. This study used a glycoengineered P. pastoris strain which is capable of producing humanized glycoprotein with terminal galactose for monoclonal antibody production. A design of experiments approach was used to optimize the process parameters. Followed by further optimization of the specific methanol feed rate, induction duration, and the initial induction biomass, the resulting process yielded up to 1.6 g/L of monoclonal antibody. This process was also scaled-up to 1,200-L scale, and the process profiles, productivity, and product quality were comparable with 30-L scale. The successful scale-up demonstrated that this glycoengineered P. pastoris fermentation process is a robust and commercially viable process.

摘要

糖基工程使毕赤酵母能够生产具有人源 N-连接聚糖的蛋白质。本研究使用了一种经过糖基工程改造的毕赤酵母菌株，该菌株能够生产具有末端半乳糖的人源化糖蛋白，用于单克隆抗体的生产。采用实验设计方法优化工艺参数。进一步优化特定甲醇进料速率、诱导持续时间和初始诱导生物量后，该工艺的单克隆抗体产量最高可达 1.6 g/L。该工艺还放大到 1200 升规模，工艺参数、生产率和产品质量与 30 升规模相当。成功的放大证明了这种经过糖基工程改造的毕赤酵母发酵工艺是一种稳健且具有商业可行性的工艺。

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优化毕赤酵母糖基工程培养工艺用于商业化抗体生产。

Optimization of a glycoengineered Pichia pastoris cultivation process for commercial antibody production.

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