通过单克隆哺乳动物细胞展示进行 Fc 工程,提高对 FcγR 的亲和力和选择性。

Q2 Medicine
Antibody Therapeutics Pub Date : 2024-06-21 eCollection Date: 2024-07-01 DOI:10.1093/abt/tbae017
Zening Wang, Minhyo Kang, Afshin Ebrahimpour, Chuan Chen, Xin Ge
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引用次数: 0

摘要

Fc 优化可大大提高单克隆抗体的疗效。然而,现有的 Fc 工程方法并不理想,存在一些明显的局限性,如糖基化不当、多克隆文库、利用片段而非全长 IgG 展示等。本研究利用细胞周期抑制重组酶介导的盒式交换,在 CHO 细胞中构建了高质量的单克隆 Fc 文库,在细胞表面显示了全长 IgG,并用抗原和单个 FcγRs 预先进行了比率荧光激活细胞分选(FACS)。通过流式细胞仪、酶联免疫吸附试验、动力学和稳态结合亲和力测量以及细胞毒性试验,对鉴定出的 Fc 变体进行了定量评估。在 CHO 细胞中构建了一个以铰链-CH2 区域为重点的易错 Fc 文库,其功能多样性为 7.5 × 106。分离出了对 FcγR 具有更强亲和力和选择性的新型 Fc 变体。特别是克隆 2a-10(G236E/K288R/K290W/K320M)与 FcγRIIa-131R 和 131H 异型的结合力增强,动力学解离常数(KD-K)分别为 140 nM 和 220 nM,而与 WT Fc 相比,与 FcγRIIb 的结合力降低;克隆 2b-1(K222I/V302E/L328F/K334E)对 FcγRIIb 的 KD-K 为 180 nM;克隆 3a-2(P247L/K248E/K334I)对 FcγRIIIa-176F 和 176 V 异型的 KD-K 分别为 190 nM 和 100 nM,在 ADCC 试验中的效力提高了 2.0 ng/ml。发现了关键的突变热点,包括与 FcγRIIIa 结合的 P247、与 FcγRIIa 结合的 K290 和与 FcγRIIb 结合的 K334。发现对单个 FcγR 具有更强亲和力和选择性的 Fc 变体以及鉴定新的突变热点为进一步优化 Fc 提供了宝贵的见解,并为推进抗体疗法的开发奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fc engineering by monoclonal mammalian cell display for improved affinity and selectivity towards FcγRs.

Fc optimization can significantly enhance therapeutic efficacy of monoclonal antibodies. However, existing Fc engineering approaches are sub-optimal with noted limitations, such as inappropriate glycosylation, polyclonal libraries, and utilizing fragment but not full-length IgG display. Applying cell cycle arrested recombinase-mediated cassette exchange, this study constructed high-quality monoclonal Fc libraries in CHO cells, displayed full-length IgG on cell surface, and preformed ratiometric fluorescence activated cell sorting (FACS) with the antigen and individual FcγRs. Identified Fc variants were quantitatively evaluated by flow cytometry, ELISA, kinetic and steady-state binding affinity measurements, and cytotoxicity assays. An error-prone Fc library focusing on the hinge-CH2 region was constructed in CHO cells with a functional diversity of 7.5 × 106. Panels of novel Fc variants with enhanced affinity and selectivity for FcγRs were isolated. Particularly, clone 2a-10 (G236E/K288R/K290W/K320M) showed increased binding strength towards FcγRIIa-131R and 131H allotypes with kinetic dissociation constants (KD-K) of 140 nM and 220 nM, respectively, while reduced binding strength towards FcγRIIb compared to WT Fc; clone 2b-1 (K222I/V302E/L328F/K334E) had KD-K of 180 nM towards FcγRIIb; clone 3a-2 (P247L/K248E/K334I) exhibited KD-K of 190 nM and 100 nM towards FcγRIIIa-176F and 176 V allotypes, respectively, and improved potency of 2.0 ng/ml in ADCC assays. Key mutation hotspots were identified, including P247 for FcγRIIIa, K290 for FcγRIIa, and K334 for FcγRIIb bindings. Discovery of Fc variants with enhanced affinity and selectivity towards individual FcγR and the identification of novel mutation hotspots provide valuable insights for further Fc optimization and serve as a foundation for advancing antibody therapeutics development.

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来源期刊
Antibody Therapeutics
Antibody Therapeutics Medicine-Immunology and Allergy
CiteScore
8.70
自引率
0.00%
发文量
30
审稿时长
8 weeks
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