Multispecific, Multivalent Antibody-Based Molecules Engineered on the DART® and TRIDENTTM Platforms

Q2 Immunology and Microbiology
Ling Huang, Kalpana Shah, Bhaswati Barat, Chia-Ying K. Lam, Sergey Gorlatov, Valentina Ciccarone, James Tamura, Paul A. Moore, Gundo Diedrich
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引用次数: 7

Abstract

Multispecific antibodies bind two or more different antigens and enable new therapeutic applications that cannot be replicated with conventional monoclonal antibodies, such as bridging different cells or bringing soluble proteins in close proximity. The DART and TRIDENT platforms enable the engineering of such antibodies. A DART molecule combines two independent antigen‐binding sites in a stabilized, diabody‐like structure. A DART molecule can be expressed with or without an Fc domain and thus can be tailored to have a long or short half‐life in vivo and to induce or ablate effector function. Linking two DART units or a DART unit and a Fab domain (the latter structure is called TRIDENT format) via an Fc domain creates a monospecific, bispecific, trispecific, or tetraspecific molecule with up to tetravalent targeting of antigens. This article focuses on the design of DART and TRIDENT molecules that target two or three different antigens. © 2020 by John Wiley & Sons, Inc.
基于DART®和TRIDENTTM平台的多特异性、多价抗体分子
多特异性抗体结合两种或两种以上不同的抗原,使传统单克隆抗体无法复制的新的治疗应用成为可能,例如桥接不同的细胞或使可溶性蛋白接近。DART和TRIDENT平台使这类抗体的工程化成为可能。DART分子将两个独立的抗原结合位点结合在一个稳定的类似糖尿病体的结构中。DART分子可以带或不带Fc结构域表达,因此可以根据在体内的半衰期长短进行调整,并诱导或消除效应功能。通过Fc结构域连接两个DART单元或一个DART单元和Fab结构域(后一种结构称为TRIDENT格式),可创建单特异性、双特异性、三特异性或四特异性分子,最多可靶向抗原的四价。本文重点介绍了针对两种或三种不同抗原的DART和TRIDENT分子的设计。©2020 by John Wiley &基本方案1:设计和生成编码DART和TRIDENT分子的表达质粒基本方案2:通过CHO细胞的瞬时转染表达DART和TRIDENT分子基本方案3:从CHO细胞上清液中纯化DART和TRIDENT分子
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Current Protocols in Immunology
Current Protocols in Immunology Immunology and Microbiology-Immunology
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