生物生产
中国仓鼠卵巢细胞
单克隆抗体
细胞培养
转染
生物
计算生物学
细胞生物学
细胞生长
计算机科学
生物技术
抗体
生物化学
免疫学
遗传学
作者
Ana Rita Costa,Maria Elisa Rodrigues,Mariana Henriques,David W. Melton,Philip Cunnah,Rosário Oliveira,Joana Azeredo
标识
DOI:10.1016/j.ijpharm.2012.03.028
摘要
Biopharmaceutical production of complex recombinant protein therapeutics currently relies on mammalian cells. The development of high-yielding stable cell lines requires processes of transfection, selection and adaptation. With several technologies available, selection has been most frequently based on dihydrofolate reductase or glutamine synthetase systems, which can be very time-consuming. Due to the pressure to reduce development costs and speed up time to market, new technologies are emerging, as the promising OSCAR expression system that could provide more rapid development of high-yielding stable cell lines than the traditional systems. However, further evaluation of its application in a wider range of cell types and media is still necessary. In this study, application of OSCAR for the transfection of a CHO-K1 cell line with a monoclonal antibody was evaluated. OSCAR was reasonably fast and simple, without negative impact on cell growth characteristics. However, minigene selection was critical, with only pDWM128 working for the cell line assessed. Initial relatively high levels of production decreased significantly in the first few weeks of passing, remaining relatively stable although with low yield thereafter. The results suggest that more work is required to develop methodologies and prove that OSCAR has significant value to the bioproduction industry.
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