Comparison of different transient gene expression systems for the production of a new humanized anti-HER2 monoclonal antibody (Hersintuzumab).

Ali Roshani, Mehdi Mohammadi, Tannaz Bahadori, Hengameh Ahmadi Zare, Mohammad Ali Judaki, Maryam Mobini, Forough Golsaz-Shirazi, Mahmood Jeddi-Tehrani, Mohammad Mehdi Amiri, Fazel Shokri
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Abstract

Background: Producing therapeutic proteins can be done quickly and on a large scale through Transient Gene Expression (TGE). Chinese hamster ovary (CHO) cell lines are commonly used to achieve this. Although there are few comparative studies, TGE has been observed in suspension-adapted CHO cells.

Objectives: We tested TGE's effectiveness in DG-44, CHO-S, and ExpiCHO-S cell lines with four transfection reagents.

Methods: A design of experiments (DoE) was followed to optimize transfection using a recombinant monoclonal antibody (mAb) construct. To evaluate the efficacy, flow cytometry and ELISA were used. Feeding strategies and temperature shifts were implemented to enhance transfection effectiveness. The quality of the mAb was assessed through ELISA, SDS-PAGE, and proliferation inhibition assays.

Results: We adapted all cell lines to grow in suspension using a serum-free medium. Our findings from flow cytometry and ELISA tests indicate that PEI and Pmax reagents had a higher rate of transfection and mAb production than the ExpiCHO commercial transfection reagent. While DG-44 cells had better transfection efficiency than CHO-S and ExpiCHO-S, there was no significant difference between CHO-S and ExpiCHO-S. Our TGE system was more productive at 32 °C than at 37 °C. In the optimized TGE of Pmax-based transfection in DG-44 at 37 and 32 °C, the production level of mAb was more than half of the amount of the commercial ExpiCHO-S expression system. Still, the number of transfected cells was three times higher, making it more efficient. The purified mAb from all transfected cell lines had similar structural and functional properties under different conditions.

Conclusion: Our research shows that using Pmax and DG-44 cells in the TGE system is a cost-effective and efficient way to produce humanized monoclonal antibodies. We discovered that this method outperforms the ExpiCHO-S kit.

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用于生产新的人源化抗HER2单克隆抗体(Hersintuzumab)的不同瞬时基因表达系统的比较。
背景:通过瞬时基因表达(TGE)可以快速大规模地生产治疗蛋白。中国仓鼠卵巢(CHO)细胞系通常用于实现这一点。尽管很少有比较研究,但在悬浮液适应的CHO细胞中已经观察到TGE。目的:我们用四种转染试剂测试了TGE在DG-44、CHO-s和ExpiCHO-s细胞系中的有效性。方法:采用实验设计法(DoE),用重组单克隆抗体(mAb)构建体优化转染。采用流式细胞仪和ELISA法评价疗效。实施饲养策略和温度变化以提高转染效率。通过ELISA、SDS-PAGE和增殖抑制测定来评估mAb的质量。结果:我们使用无血清培养基使所有细胞系在悬浮液中生长。我们的流式细胞术和ELISA测试结果表明,PEI和Pmax试剂比ExpiCHO商业转染试剂具有更高的转染率和mAb产生率。虽然DG-44细胞的转染效率高于CHO-S和ExpiCHO-S,但CHO-S和ExpiCHO-S之间没有显著差异。我们的TGE系统在32°C时比在37°C时更有效率。在37和32°C下DG-44中基于Pmax的转染的优化TGE中,mAb的产生水平是商业ExpiCHO-S表达系统量的一半以上。尽管如此,转染细胞的数量还是增加了三倍,使其效率更高。来自所有转染细胞系的纯化mAb在不同条件下具有相似的结构和功能特性。结论:我们的研究表明,在TGE系统中使用Pmax和DG-44细胞是生产人源化单克隆抗体的一种经济有效的方法。我们发现这种方法优于ExpiCHO-S试剂盒。
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