Improving the expression of anti-IL-2Rα monoclonal antibody in the CHO cells through optimization of the expression vector and translation efficiency

The growing need for monoclonal antibodies (mAbs) necessitates the development of novel and efficient production approaches. Regulatory elements like ubiquitous chromatin-opening elements (UCOEs) have been employed for improvement of the mAb expression in the Chinese hamster ovary (CHO) cells. SINEUPs are a class of long non-coding RNAs, which can improve the translation of partly overlapping mRNAs. A combination of these two elements might lead to higher production of mAbs. Therefore, the current study was conducted to investigate the effects of SINEUPs and A2UCOE on the expression of an IgG1 in the CHO-K1 cells. Hence, after constructing the mAb, mAb-SINEUP, and mAb-UCOE vectors, four stable cell pools were generated through combining the above vectors. According to the expression analysis, antibody yields were higher in the mAb-SINEUP and mAb-UCOE cell pools compared to the mAb cells. In addition, the cells possessing both SINEUP and UCOE elements provided the best expression. Persistent mAb expression was observed for over 2 months in these cells, whilst the expression was decreased in the mAb pool. SINEUP and UCOE positively influenced the stable mAb expression. It can be concluded that the SINEUP and UCOE enhance the antibody stability and expression level separately and their combination improves the mAb production in the CHO cells.