Batavia Biosciences Inc., 300 TradeCenter Suite 6650, Woburn, MA, 01801, USA.
ABL, Inc., 9800 Medical Center Drive, Building D, Rockville, MD, 20850, USA.
Biologicals. 2021 Sep;73:16-23. doi: 10.1016/j.biologicals.2021.07.004. Epub 2021 Aug 6.
The HIV-1 derived gp145 protein is being investigated by research groups as preclinical studies have shown high promise for this protein as a vaccine against HIV. However, one of the main challenges with manufacturing this promising protein has been ascribed to the low yield obtained in mammalian cell cultures. Significant improvements in gp145 production are needed to address this issue to test the gp145 protein as a potentially effective, safe, and affordable HIV vaccine. Here we describe the application of a novel expression technology to create GMP-grade CHO cell lines expressing approximately 50 μg/ml in non-optimized fed-batch culture, which is an order of magnitude higher than that obtained in existing processes. Top producing clones show a high degree of similarity in the glycosylation patterns of the purified protein to the reference standard. Conformational integrity and functionality was demonstrated via high-affinity binding to soluble CD4, using a panel of antibodies including VRC01, F105, Hk20, PG9 and 17b. In summary, we were able to generate CHO cell lines expressing HIV gp145 with significantly higher overall expression yields than currently accessible, and high product quality that could potentially be suitable for future studies assessing the efficacy and safety of gp145-based HIV vaccines.
HIV-1 衍生的 gp145 蛋白正在被研究团队研究,因为临床前研究表明,这种蛋白作为 HIV 疫苗具有很高的前景。然而,制造这种有前途的蛋白的主要挑战之一是在哺乳动物细胞培养物中获得的产量低。为了解决这个问题,需要显著提高 gp145 的产量,以测试 gp145 蛋白作为一种潜在有效、安全和负担得起的 HIV 疫苗。在这里,我们描述了一种新型表达技术的应用,该技术可在非优化的分批补料培养中产生约 50μg/ml 的 GMP 级 CHO 细胞系,这比现有工艺中获得的产量高出一个数量级。高产克隆显示出与参比标准高度相似的纯化蛋白的糖基化模式。通过使用包括 VRC01、F105、Hk20、PG9 和 17b 在内的一系列抗体,与可溶性 CD4 进行高亲和力结合,证明了构象完整性和功能。总之,我们能够生成表达 HIV gp145 的 CHO 细胞系,其总表达产量明显高于目前可获得的产量,并且产品质量高,可能适合未来评估 gp145 为基础的 HIV 疫苗的疗效和安全性的研究。