D. Darowski, C. Jost, K. Stubenrauch, Uwe Wessels, J. Benz, A. Ehler, A. Freimoser-Grundschober, P. Brünker, E. Mössner, P. Umaña, S. Kobold, C. Klein
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引用次数: 7
摘要
基于单克隆抗体的治疗方法是治疗不同人类疾病的一个组成部分,在发现阶段选择合适的候选抗体是必不可少的。在这里,我们描述了一种新的细胞筛选方法,用于鉴定和表征适合转化为T细胞双特异性抗体的治疗性抗体,使用嵌合抗原受体(CAR)转导jurkat - nfat -荧光素酶报告细胞(CAR- j)。为此,我们为Jurkat-NFAT报告细胞系配备了通用CAR,该CAR基于单克隆抗体识别效应沉默的人igg1抗体fc部分的P329G突变。除了基于scfv的第二代car之外,还产生了采用p329g粘结剂的Fab-based car。将这些抗p329g - car - j细胞与相应的p329g突变的igg1抗体一起使用,我们建立了一个系统,该系统有助于在早期发现阶段灵活、高通量地快速测试治疗性候选抗体。我们发现,如果各自的抗体作为肿瘤靶点和P329G-CAR-J细胞之间的适配器,scFv和Fab-based抗P329G-CAR-J细胞都会引发一个强大的剂量依赖性荧光素酶信号。重要的是,我们可以证明,从抗p329g - car - j筛选试验中获得的候选抗体的功能特征,可以预测这些抗体在T细胞双特异性抗体格式中的功能。
P329G-CAR-J: a novel Jurkat-NFAT-based CAR-T reporter system recognizing the P329G Fc mutation.
Monoclonal antibody-based therapeutics are an integral part of treatment of different human diseases, and the selection of suitable antibody candidates during the discovery phase is essential. Here, we describe a novel, cellular screening approach for the identification and characterization of therapeutic antibodies suitable for conversion into T cell bispecific antibodies using chimeric antigen receptor (CAR) transduced Jurkat-NFAT-luciferase reporter cells (CAR-J). For that purpose, we equipped a Jurkat-NFAT reporter cell line with a universal CAR, based on a monoclonal antibody recognizing the P329G mutation in the Fc-part of effector-silenced human IgG1-antibodies. In addition to scFv-based second generation CARs, Fab-based CARs employing the P329G-binder were generated. Using these anti-P329G-CAR-J cells together with the respective P329G-mutated IgG1-antibodies, we established a system, which facilitates the rapid testing of therapeutic antibody candidates in a flexible, high throughput setting during early stage discovery. We show that both, scFv- and Fab-based anti-P329G-CAR-J cells elicit a robust and dose-dependent luciferase signal if the respective antibody acts as an adaptor between tumor target and P329G-CAR-J cells. Importantly, we could demonstrate that functional characteristics of the antibody candidates, derived from the anti-P329G-CAR-J screening assay, are predictive for the functionality of these antibodies in the T cell bispecific antibody format.
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Protein Engineering, Design and Selection (PEDS) publishes high-quality research papers and review articles relevant to the engineering, design and selection of proteins for use in biotechnology and therapy, and for understanding the fundamental link between protein sequence, structure, dynamics, function, and evolution.
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