Enhancing the Butyrylcholinesterase Activity in HEK-293 Cell Line by Dual-Promoter Vector Decorated on Lipofectamine

Abstract

Purpose

Human butyrylcholinesterase (BChE) serves as a bio scavenger to counteract organophosphate poisoning. It is also a potential drug candidate in several therapeutic fields. Therefore, in the present study, we constructed a new dual-promoter plasmid consisting of Cytomegalovirus (CMV) and human elongation factor 1α (EF-1α) promoters and transfected that into HEK-293 cells using Lipofectamine to enhance the BChE secretion.

Methods

The new dual-promoter construction (pBudCE dual BChE) including two copies of the BChE gene was designed and transfected into cells by liposomal structures. The cloned plasmids were evaluated by enzyme digestion and gel electrophoresis analysis. Experimental groups were categorized into the cells transfected by pBudCE dual BChE (treatment), pCMV (positive control) vectors, and nontransfected cells (negative control). BChE gene expression was evaluated by qRT-PCR and the enzyme activity was assessed using modified Ellman’s method. The freeze-thaw process was carried out for analyzing the stability of the pBudCE dual BChE vector.

Results

Validation examination of the cloned plasmids confirmed the successful cloning process. The gene expression level and Ellman’s method value in pBudCE dual BChE was higher than the other groups. CMV promoter has also increased the enzyme activity, although the difference was not significant compared with the control group. Interestingly, freeze-thaw cycles followed by several passages did not affect the enzyme activity.

Conclusion

The designed construction with CMV and EF-1α promoters could increase BChE gene expression and the activity of the BChE enzyme in HEK-293 cell line. Large-scale production of BChE enzyme can be achieved by using dual-promoter plasmid construction compared to a single-promoter vector to be used in clinical trials.

Keywords:

• dual-promoter
• vector
• recombinant protein
• drug delivery
• Ellman’s method
• HEK-293

Acknowledgments

This work was a part of the PhD thesis that was submitted under the ethics approval code: IR.KMU.REC.1398.294 in the Kerman University of Medical Sciences (KMU). M. Abolhassani from the department of clinical biochemistry at Afzalipour School of Medicine is acknowledged for his warm support.

Disclosure

The authors declare no conflict of interests for this work.