Department of Biosystems Science and Engineering, ETH Zürich , Basel , Switzerland.
MAbs. 2019 Nov-Dec;11(8):1367-1380. doi: 10.1080/19420862.2019.1662691. Epub 2019 Sep 16.
Antibody engineering in mammalian cells offers the important advantage of expression and screening of libraries in their native conformation, increasing the likelihood of generating candidates with more favorable molecular properties. Major advances in cellular engineering enabled by CRISPR-Cas9 genome editing have made it possible to expand the use of mammalian cells in biotechnological applications. Here, we describe an antibody engineering and screening approach where complete variable light (V) and heavy (V) chain cassette libraries are stably integrated into the genome of hybridoma cells by enhanced Cas9-driven homology-directed repair (HDR), resulting in their surface display and secretion. By developing an improved HDR donor format that utilizes linearization, we are able to achieve >15-fold improvement of genomic integration, resulting in a screening workflow that only requires a simple plasmid electroporation. This proved suitable for different applications in antibody discovery and engineering. By integrating and screening an immune library obtained from the variable gene repertoire of an immunized mouse, we could isolate a diverse panel of >40 unique antigen-binding variants. Additionally, we successfully performed affinity maturation by directed evolution screening of an antibody library based on random mutagenesis, leading to the isolation of several clones with affinities in the picomolar range.
哺乳动物细胞中的抗体工程提供了一个重要的优势,即可以在其天然构象中表达和筛选文库,从而增加生成具有更有利分子特性候选物的可能性。CRISPR-Cas9 基因组编辑所带来的细胞工程的重大进展,使得在生物技术应用中扩大使用哺乳动物细胞成为可能。在这里,我们描述了一种抗体工程和筛选方法,其中完整的可变轻(V)和重(V)链盒库通过增强 Cas9 驱动的同源定向修复(HDR)稳定整合到杂交瘤细胞的基因组中,从而实现其表面展示和分泌。通过开发一种利用线性化的改进 HDR 供体格式,我们能够实现基因组整合提高 15 倍以上,从而形成仅需要简单质粒电穿孔的筛选工作流程。这被证明适用于抗体发现和工程的不同应用。通过整合和筛选来自免疫小鼠可变基因库的免疫文库,我们能够分离出 40 多种独特的抗原结合变体。此外,我们还通过对基于随机诱变的抗体文库进行定向进化筛选成功地进行了亲和力成熟,分离出了几个亲和力在皮摩尔范围内的克隆。
