A preliminary study to establish the transfected CHO cell lines which highly express Trastuzumab - A biosimilar product of Herceptin

Ho Chi Minh City Open University Journal of Science Engineering and Technology Pub Date : 2022-11-04 DOI:10.46223/hcmcoujs.tech.en.12.2.2172.2022

Nguyen Quang Huy, Huỳnh Thị Ánh Ly, T. Mai, N. T. Truc, H. T. Hieu, Nguyen Mai Khoi, D. C. Chung, Trinh Thanh Hung, D. Si

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Abstract

Human epidermal growth factor receptor 2 (HER2) has been identified as a molecular target for breast cancer therapy, such as Trastuzumab (Herceptin®). This has been shown to improve patient survival substantially. The current study is aiming to locally produce an anti-HER2 monoclonal antibody (named Trastuzumab) which has an equivalent biological properties in comparison with the original version, Herceptin®). In silico design and construction of recombinant vectors, as well as the establishment of transfected cell lines with high expression of Trastuzumab were performed. Based on the protein sequences obtained from the Drugbank, the DNA sequences encoding for the light chain (Tras-Lc) and heavy chain (Tras-Hc) of Trastuzumab were optimized and integrated into pNanogen-Hygro and pNanogen-Puro vectors, respectively. The Neon Transfection System was used to co-transfect the pNanogen-Tras-Lc-Hygro and pNanogen-Tras-Hc-Puro constructs into CHO cells. Different co-transfected single-cell-colonies selected on media supplemented with hygromycin and puromycin were used for ELISA and SDS-PAGE assays to identify the CHO cell lines which highly express Trastuzumab. Based on the present results, 30μg of both constructs were suitable for DNA co-transfection. After 07 days of culture, the highest amount of Trastuzumab (561 µg/ml) was obtained from the H06LD68 cell line.

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建立高表达赫赛汀生物仿制药曲妥珠单抗的转染CHO细胞系的初步研究

人表皮生长因子受体2 (HER2)已被确定为乳腺癌治疗的分子靶点，如曲妥珠单抗(赫赛汀®)。这已被证明大大提高了患者的生存率。目前的研究目标是在本地生产一种抗her2单克隆抗体(命名为曲妥珠单抗)，与原始版本赫赛汀(Herceptin®)相比，具有同等的生物学特性。在计算机上设计和构建重组载体，并建立高表达曲妥珠单抗的转染细胞系。基于从Drugbank获得的蛋白序列，优化曲妥珠单抗轻链(Tras-Lc)和重链(Tras-Hc)的DNA序列，分别整合到pNanogen-Hygro和pNanogen-Puro载体中。利用Neon转染系统将pNanogen-Tras-Lc-Hygro和pNanogen-Tras-Hc-Puro构建体共转染CHO细胞。在添加潮霉素和嘌呤霉素的培养基上选择不同共转染的单细胞菌落，采用ELISA和SDS-PAGE方法鉴定高表达曲妥珠单抗的CHO细胞系。结果表明，两种构建体的共转染量均为30μg。培养07 d后，H06LD68细胞系的曲妥珠单抗含量最高(561µg/ml)。

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Ho Chi Minh City Open University Journal of Science Engineering and Technology

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8 weeks