Antibody mutations favoring pH‐dependent binding in solid tumor microenvironments: Insights from large‐scale structure‐based calculations

抗体 化学 细胞毒性 生物物理学 互补决定区 计算生物学 结合位点 抗原 生物化学 癌症研究 组合化学 肽序列 生物 体外 免疫学 基因
作者
Wanlei Wei,Christopher R. Corbeil,Francis Gaudreault,Christophe Deprez,Enrico O. Purisima,Traian Sulea
出处
期刊:Proteins [Wiley]
卷期号:90 (8): 1538-1546 被引量:6
标识
DOI:10.1002/prot.26340
摘要

Antibody-based therapeutics for treatment of various tumors have grown rapidly in recent years. Unfortunately, safety issues, attributed to off-tumor effects and cytotoxicity, are still a significant concern with the standard of care. Improvements to ensure targeted delivery of antitumor pharmaceuticals are desperately needed. We previously demonstrated that incorporating histidyl pH-switches in an anti-HER2 antibody induced selective antigen binding under acidic pH conditions (MAbs 2020;12:1682866). This led to an improved safety profile due to preferential targeting of the oncoprotein in the acidic solid tumor microenvironment. Following this success, we expanded this approach to a set of over 400 antibody structures complexed with over 100 different human oncoproteins, associated with solid tumors. Calculations suggested that mutations to His of certain residue types, namely Trp, Arg, and Tyr, could be significantly more successful for inducing pH-dependent binding under acidic conditions. Furthermore, 10 positions within the complementarity-determining region were also predicted to exhibit greater successes. Combined, these two accessible metrics could serve as the basis for a sequence-based engineering of pH-selective binding. This approach could be applied to most anticancer antibodies, which lack detailed structural characterization.
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