Abstract
A Review on Molecular Structural Characterization of Human Cysteine Cathepsins in Escherichia Coli Expression Systems
Cooray, R., Madubashetha, H., Wickramasinghe, S., De Silva, N., Warnakula, L., & Dissanayake, Y.
2019
University of Ruhuna Faculty of Allied Health Sciences 2nd Research Symposium (RuFARS 2019), Galle, Sri Lanka.
doi:
Background: Eleven cysteine cathepsins have been identified in human, Cathepsin B, C, F, H, K, L, O, S, V, X and W. Studies related to their specific functions, regulation and distribution patterns in tissues have not been fully studied to understand their biochemical implications in human physiology. Molecular characterization including expression and recombinant production of them in bacterial expression systems is an effective way of understanding them.
Methodology: This review focused on molecular structural characterization studies that have been done so far based on in vitro expression of genes encoding for human cysteine cathepsins in Escherichia coli expression systems. Nearly 50 related papers were found as published literature using keywords cysteine cathepsins, expression and E.coli in global databases such as the Google Scholar, PUBMED and NCBI and were analysed.
Results: It was seen that all cathepsins except for K, C, H, X and W have been expressed in bacterial expression systems, the majority in E. coli BL21(DE3) pLysS host via pET3 expression. No literature indicated that cathepsins K, C, H, X and W to have been characterized on any molecular basis.
Conclusions: İt is concluded that certain important research gaps such as precise validation of the recombinant cysteine cathepsin produced needs to be attended to by investigating into specific substrates utilized by each enzyme. In addition, mass production of these enzymes have to be faciltated by optimizing their recombinant production effeciency, in order for them to be incoperted into biopharmceuticls productively.