Efficient production of bispecific antibodies-optimization of transfection strategy leads to high-level stable cell line generation of a Fabs-in-tandem immunoglobin.

Q2 Medicine
Shiyong Gong, Chengbin Wu
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引用次数: 1

Abstract

Bispecific antibodies (bsAbs) are often composed of more than two component chains, such as Fabs-in-tandem immunoglobin (FIT-Ig) comprising three different component chains, which bring challenges for generating a high proportion of the correctly assembled bsAbs in a stable cell line. During the CHO-K1 stable cell line construction of a FIT-Ig, we investigated the FIT-Ig component chain ratio in transfection, where two sets of expression vectors were designed. Both designs utilized two vectors for co-transfection. Multiple transfections with plasmid ratio adjustment were applied, and the resultant minipools were evaluated for expression titer and quality of produced FIT-Ig. The results suggested that abundant outer Fab short chains (twofold chain genes versus other chains) can promote complete FIT-Ig assembly and therefore reduce the fragmental impurities of FIT-Ig. This adjustment of the component chain ratios at the beginning is beneficial to FIT-Ig stable cell line generation and brings favorable clones to process development.

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高效生产双特异性抗体-优化转染策略导致fab -in-tandem免疫球蛋白的高水平稳定细胞系的产生。
双特异性抗体(bsAbs)通常由两条以上的组分链组成,如fab -in-tandem immunoglobin (FIT-Ig)由三条不同的组分链组成,这给在稳定的细胞系中产生高比例正确组装的bsAbs带来了挑战。在构建FIT-Ig CHO-K1稳定细胞系的过程中,我们研究了转染时FIT-Ig组分链比,设计了两组表达载体。两种设计均采用两种载体共转染。通过调整质粒比例进行多次转染,并评估产生的FIT-Ig的表达滴度和质量。结果表明,丰富的Fab外短链(双链基因与其他链相比)可以促进FIT-Ig的完整组装,从而减少FIT-Ig的片段杂质。这种开始时组分链比例的调整有利于FIT-Ig稳定细胞系的生成,并为工艺开发带来有利的克隆。
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来源期刊
Antibody Therapeutics
Antibody Therapeutics Medicine-Immunology and Allergy
CiteScore
8.70
自引率
0.00%
发文量
30
审稿时长
8 weeks
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