使用可拆卸的 SpyCatcher/SnoopCatcher 单元,通过重链和轻链之间的特异配对构建双特异性抗体。

IF 5.7 3区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS Journal of Biological Engineering Pub Date : 2024-10-14 DOI:10.1186/s13036-024-00454-z
Jyunna Yoshida, Yuki Kato, Ai Isogawa, Yoshikazu Tanaka, Izumi Kumagai, Ryutaro Asano, Takeshi Nakanishi, Koki Makabe
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引用次数: 0

摘要

在生产双特异性抗体(bsAbs)的过程中,非特异性配对会导致目标 bsAb 分子的产量较低,这一问题被称为 "配对错误问题"。为了克服配对错误问题,人们开发了多种抗体工程技术。在这里,我们介绍 "通过外部配对和切除的 bsAb"(BAPE),这是一种新型链配对方法,它通过融合外部 SpyCatcher/Tag 和 SnoopCatcher/Tag 单元来诱导特异性链配对。然后通过蛋白酶裂解去除这些标签。在这项研究中,我们采用这种方法强制重链和轻链正确配对,而重链配对是通过 Knobs-into-Holes 突变实现的。然后,我们用共价异肽键确认了链间桥的形成。抗CD3/抗Her2和抗CD3/抗EGFR bsAbs都显示出令人满意的靶结合活性和体外细胞杀伤活化T细胞的活性。
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Construction of bispecific antibodies by specific pairing between the heavy chain and the light chain using removable SpyCatcher/SnoopCatcher units.

During the production of bispecific antibodies (bsAbs), nonspecific pairing results in low yields of target bsAb molecules, an issue known as the "mispairing problem." Several antibody engineering techniques have been developed to overcome mispairing issues. Here, we introduce "bsAb by external pairing and excision" (BAPE), a novel chain pairing method that induces specific chain pairing by fusing external SpyCatcher/Tag and SnoopCatcher/Tag units. These tags are then removed via protease cleavage. In this study, we applied this method to force the correct pairings of heavy and light chains while the heavy-chain pairing was achieved by the Knobs-into-Holes mutation. We then confirmed the formation of interchain bridges with covalent isopeptide bonds. Both anti-CD3/anti-Her2 and anti-CD3/anti-EGFR bsAbs displayed satisfactory target binding activities and in vitro cell-killing activity with activated T-cells.

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来源期刊
Journal of Biological Engineering
Journal of Biological Engineering BIOCHEMICAL RESEARCH METHODS-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
CiteScore
7.10
自引率
1.80%
发文量
32
审稿时长
17 weeks
期刊介绍: Biological engineering is an emerging discipline that encompasses engineering theory and practice connected to and derived from the science of biology, just as mechanical engineering and electrical engineering are rooted in physics and chemical engineering in chemistry. Topical areas include, but are not limited to: Synthetic biology and cellular design Biomolecular, cellular and tissue engineering Bioproduction and metabolic engineering Biosensors Ecological and environmental engineering Biological engineering education and the biodesign process As the official journal of the Institute of Biological Engineering, Journal of Biological Engineering provides a home for the continuum from biological information science, molecules and cells, product formation, wastes and remediation, and educational advances in curriculum content and pedagogy at the undergraduate and graduate-levels. Manuscripts should explore commonalities with other fields of application by providing some discussion of the broader context of the work and how it connects to other areas within the field.
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