Design of a Novel Fab‐Like Antibody Fragment with Enhanced Stability and Affinity for Clinical use

免疫球蛋白Fab片段 互补决定区 抗体 单克隆抗体 生物信息学 化学 重组DNA 子类 蛋白质工程 亲和力成熟 碎片结晶区 计算生物学 分子生物学 生物 生物化学 免疫学 基因
作者
Chunyu Wang,Jiaxu Hong,Zhenlin Yang,Xujiao Zhou,Yuhan Yang,Yu Kong,Binfan Chen,Huifang Wu,Bin‐Zhi Qian,Dimiter S. Dimitrov,Xingtao Zhou,Yanling Wu,Tianlei Ying
出处
期刊:Small methods [Wiley]
卷期号:6 (2): e2100966-e2100966 被引量:6
标识
DOI:10.1002/smtd.202100966
摘要

With increasing interest in applying recombinant monoclonal antibodies (mAbs) in human medicine, engineered mAb fragments with reduced size and improved stability are in demand to overcome current limitations in clinical use. Herein, a novel Fab-like antibody fragment generated via an in silico-based engineering approach where the CH1 and CL domains of Fab are replaced by the IgG1 CH3 domains is described. This construct, designated as FabCH3, maintains the natural N-terminus and C-terminus of IgG antibody, can be expressed at a high level in bacterial cells and, importantly, exhibits much higher stability and affinity than the parental Fab when tested in a mesothelin-specific Fab m912, as well as a vascular endothelial growth factor A (VEGFA)-specific Fab Ranibizumab (in vivo). The high-resolution crystal structures of m912 FabCH3 and m912 Fab are determined, and the comparative analysis reveals more rigid structures in both constant domains and complementarity-determining regions of FabCH3, explaining its enhanced stability and affinity. Overall, the stabilized FabCH3 described in this report provides a versatile platform for engineering Fab-like antibody fragments with higher stability and antigen-binding affinity that can be used as a distinct class of antibody therapeutics.
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