抗人转化生长因子β1纳米抗体的制备及功能鉴定

基础医学与临床 ›› 2020, Vol. 40 ›› Issue (5): 632-638.

抗人转化生长因子β1纳米抗体的制备及功能鉴定

王玥¹, 李峥², 陈慧¹, 张建民^1*, 何维^1*

1.中国医学科学院基础医学研究所北京协和医学院基础学院免疫学系, 北京 100005;
2.北京格根生物科技有限公司, 北京 100005

收稿日期:2020-01-14 修回日期:2020-03-19 出版日期:2020-05-05 发布日期:2020-04-30
通讯作者: *heweingd@126.com;jzhang42@163.com
基金资助:
国家自然科学基金(81972866,31970843,81673010);国家重点研发计划(2016YFA0101001);中国医学科学院创新工程(2016-I2M-1-008);中国医学科学院T细胞与免疫治疗重点室项目(2018PT31052)

Preparation and functional identification of anti-human transforming growth factor β1 nanobodies

WANG Yue¹, LI Zheng², CHEN Hui¹, ZHANG Jian-min^1*, HE Wei^1*

1. Department of Immunology, Institute of Basic Medical Sciences CAMS,School of Basic Medicine PUMC, Beijing 100005;
2. Beijing Gegen Biotechnology Co. Ltd., Beijing 100005,China

Received:2020-01-14 Revised:2020-03-19 Online:2020-05-05 Published:2020-04-30
Contact: *heweingd@126.com;jzhang42@163.com

摘要/Abstract

摘要： 目的制备并鉴定羊驼来源的高特异性、高亲和力的抗人转化生长因子β1(TGF-β1)的纳米抗体。方法构建真核表达质粒并瞬时转染人胚胎肾上皮细胞HEK-293T,获得重组TGF-β1蛋白;用该蛋白混合弗氏佐剂免疫羊驼,分离外周血单核细胞,提取RNA进行巢式PCR,扩增抗体重链可变区(VHH),并构建VHH噬菌体展示文库;利用ELISA筛选能与TGF-β1重组蛋白特异性结合的抗体株,原核表达并纯化抗TGF-β1的纳米抗体;利用免疫印迹、免疫荧光和ForteBio Octer®等方法鉴定纳米抗体的特异性及亲和力。结果成功构建cFUGW-TGF-β1表达载体并纯化了3 mg TGF-β1蛋白;羊驼经过5次免疫后得到容量为1.2×10⁸的TGF-β1-VHH噬菌体展示文库;通过4轮ELISA筛选,得到7株能与重组TGF-β1蛋白特异性结合的抗体株;免疫印迹及免疫荧光实验结果均显示原核表达纯化的TGF-β1纳米抗体B3和C8能特异性识别肺癌细胞系NCI-H520表达的天然TGF-β1;ForteBio Octer®结果显示B3、C8与重组TGF-β1的亲和力分别达到1.48×10^-9 mol/L、9×10^-9 mol/L。结论 TGF-β1纳米抗体B3和C8能特异性结合TGF-β1,特异性强、亲和力高,或可开发用于肿瘤的免疫治疗。

关键词: 人转化生长因子β1, 纳米抗体, 噬菌体展示文库

Abstract: Objective To prepare alpaca-derived anti-human TGF-β1 nanobodies with high specificity and high affinity. Methods The eukaryotic expression plasmid cFUGW-TGF-β1 was constructed and transiently transfected into HEK-293T cells to obtain recombinant TGF-β1 protein. Purified TGF-β1 proteins were mixed with Freund's adjuvant before immunizing alpaca. The peripheral blood mononuclear cells were isolated from immunized alpaca for RNA extraction and cDNA library was prepared by reverse transcription. Nested PCR was performed to obtain heavy chain variable region fragments for a phage display library. ELISA was applied to screen TGF-β1-specific antibody strains. Positive clones were selected and transferred to a prokaryotic expression vector for purification of nanobodies specific against human TGF-β1. Immunoblotting, immunofluorescence and ForteBio methods were performed to identify the specificity and affinity of the antibodies. Results The recombinant plasmid cFUGW-TGF-β1 was successfully constructed and 3 mg TGF-β1 purified proteins were obtained. A TGF-β1-VHH phage display library with a capacity of 1.2×10⁸ was obtained after 5 immunization. After four-rounds selection with ELISA, 7 strains of nanobodies that specifically bound to recombinant TGF-β1 protein were obtained. Both Western blot and immunofluorescence experiments showed that nanobodies B3 and C8 can recognize TGF-β1 in NCI-H520 tumor cells with the affinity as 1.48×10^-9 mol/L and 9×10^-9 mol/L, respectively. Conclusions Two TGF-β1-VHH nanobodies B3 and C8 are obtained, which can specifically bind TGF-β1 with high affinity. These nanobodiesare potential candidates for tumor immunotherapy.

Key words: human transforming growth factor β1, nanobodies, phage display library

中图分类号:

R392-3

王玥, 李峥, 陈慧, 张建民, 何维. 抗人转化生长因子β1纳米抗体的制备及功能鉴定[J]. 基础医学与临床, 2020, 40(5): 632-638.

WANG Yue, LI Zheng, CHEN Hui, ZHANG Jian-min, HE Wei. Preparation and functional identification of anti-human transforming growth factor β1 nanobodies[J]. Basic & Clinical Medicine, 2020, 40(5): 632-638.

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