Mycobacterium tuberculosis kinases as potential drug targets: production of recombinant kinases in E. coli for functional characterization and enzyme inhibition screening against the medicinal plant Pelargonium sidoides

Abstract

Tuberculosis (TB) is an infectious and fatal disease that ranks as the second leading killer worldwide. It is caused by Mycobacterium tuberculosis (Mtb) which is an obligate intracellular parasite that colonizes the alveolar macrophages of the immune system. The major health concern associated with TB is its co-infection with HIV and the development of strains with multi-drug resistance. The elimination of TB has been hindered due to the lack of understanding of the survival strategies used by this pathogen. Thus, research towards discovering new effective antibacterial drugs is necessary and a group of Mtb kinase enzymes were targeted in this study because these enzymes are crucial for metabolism, pathogenesis and, hence, the survival of Mtb. Kinases are a group of structurally distinct and diverse proteins that catalyze the transfer of the phosphate group from high energy donor molecules such as ATP (or GTP) to a substrate. The phosphorylation of proteins modifies the activity of specific proteins which is subsequently used to control complex cellular processes within Mtb. The starting point of this research targeted eight specific Mtb kinases namely; Nucleoside diphosphokinase, Homoserine kinase, Acetate kinase, Glycerol kinase, Thiamine monophosphate kinase, Ribokinase, Aspartokinase and Shikimate kinase. The aim of this project was to subclone the gene sequences for these eight recombinant Mtb kinases and express them in Escherichia coli, to purify the proteins and determine their activity. In the effort to find new lead compounds, the final stage of this study focused on the basic screening of the TB kinases against an extract prepared from Pelargonium sidoides, a medicinal plant, to identify any inhibitory effects. Although this traditional medicinal plant has been broadly researched and extensively used to treat TB, there is still a lack of understanding of this plant’s scientific curative effect. Various molecular and biochemical methods were used to achieve the aims of this project. The putative gene sequence was obtained from the annotated genome of H37Rv, deposited at NCBI as NC_000962.2. The genes encoding the kinases were successfully PCR-amplified from genomic DNA, cloned into an expression vector in-frame with a C- or N-terminal 6-histidine-tag and expressed in E. coli BL21 (DE3). The purification of the protein was complex, but various different methods and techniques were explored to obtain sufficient amounts of protein. The functional characterization of the kinases involved an HPLC enzyme assay that showed that the recombinant kinases were active. These enzymes were then screened against the potential inhibitory compounds in P. sidoides using enzyme assays to generate dose-response curves. This allowed an effective comparison not only of the Mtb kinases’ activity under normal conditions but also the kinases’ activity in the presence of a potential inhibitor. Overall, the inhibition of the enzymes required the presence of higher concentrations of the P. sidoides extract. However, the SK enzyme results presented a significantly higher inhibition and the lowest IC50 value, in comparison to the other kinases, which makes this kinase an attractive potential drug target against TB. In summation, cloning and purification of SK was successful, resulting in a concentration of 2030 μg/ml of purified enzyme and its activity analysis demonstrated enzyme functionality. This activity was reduced to zero in the presence of 1 x 102 mg/ml dilution of P. sidoides plant extract. This research conducted has extended the quality of information available in this field of study. These interesting results, proposing and identifying SK as a suitable potential target can be a starting point to significantly contribute and progress in this field of research, with the eventual goal of developing a drug to combat this fatal disease.