在大肠杆菌中增强抗 HER2 免疫毒素可溶性表达的综合生物处理和遗传策略。

IF 3.5 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Sheida Mani, Bahareh Arab, Vajihe Akbari, C Perry Chou
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引用次数: 0

摘要

免疫毒素被广泛应用于癌症治疗。然而,细菌表达免疫毒素通常会导致形成不溶性和无功能的重组蛋白。本研究旨在利用响应面方法学(RSM)优化大肠杆菌的培养条件,从而提高新型抗 HER2 免疫毒素在 trc 启动子调控下的可溶性表达。在进行 RSM 时,使用 Box-Behnken 设计和 Design Expert 软件选择了四个培养变量(即诱导剂浓度、诱导后时间、诱导后温度和培养基配方)进行统计表征和优化。根据所建立的 Box-Behnken 设计模型,确定抗 HER2 免疫毒素可溶性表达的最佳培养条件为在 33 °C 的 LB 培养基中以 0.1 mM IPTG 诱导 18 小时。本研究开发的技术方法可普遍用于提高以大肠杆菌为基因表达系统的重组蛋白的产量和质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated bioprocessing and genetic strategies to enhance soluble expression of anti-HER2 immunotoxin in E. Coli.

Immunotoxins are widely applied for cancer therapy. However, bacterial expression of immunotoxins usually leads to the formation of insoluble and non-functional recombinant proteins. This study was aimed to improve soluble expression of a novel anti-HER2 immunotoxin under the regulation of the trc promoter in Escherichia coli by optimization of the cultivation conditions using response surface methodology (RSM). To conduct RSM, four cultivation variables (i.e., inducer concentration, post-induction time, post-induction temperature, and medium recipe), were selected for statistical characterization and optimization using the Box-Behnken design and Design Expert software. Based on the developed model using the Box-Behnken design, the optimal cultivation conditions for soluble expression of anti-HER2 immunotoxin were determined to be 0.1 mM IPTG for induction in the LB medium at 33 °C for 18 h. The expressed immunotoxin was successfully purified using affinity chromatography with more than 90% purity and its bioactivity was confirmed using cell-based ELISA. Technical approach developed in this study can be generally applied to enhance the production yield and quality of recombinant proteins using E. coli as the gene expression system.

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来源期刊
AMB Express
AMB Express BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
CiteScore
7.20
自引率
2.70%
发文量
141
审稿时长
13 weeks
期刊介绍: AMB Express is a high quality journal that brings together research in the area of Applied and Industrial Microbiology with a particular interest in ''White Biotechnology'' and ''Red Biotechnology''. The emphasis is on processes employing microorganisms, eukaryotic cell cultures or enzymes for the biosynthesis, transformation and degradation of compounds. This includes fine and bulk chemicals, polymeric compounds and enzymes or other proteins. Downstream processes are also considered. Integrated processes combining biochemical and chemical processes are also published.
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