Mevalonate kinase of Leishmania donovani protects parasite against oxidative stress by modulating ergosterol biosynthesis.

Leishmaniasis comprises of a wide variety of diseases, caused by protozoan parasite belonging to the genus Leishmania. Leishmania parasites undergo different types of stress during their lifetime and have developed strategies to overcome this damage. Identifying the mechanistic approach used by the parasite in dealing with the stress is of immense importance for unfolding the survival strategy adopted by the parasite. Mevalonate kinase (MVK) is an important regulatory factor in the mevalonate pathway in both bacteria and eukaryotes. In this study, we explored the role of Leishmania donovani mevalonate kinase (LdMVK) in parasite survival under stress condition. Hydrogen peroxide (HO) and menadione, the two known oxidants were used to carry out the experiments. The MVK expression was found to be up regulated ∼2.1 fold and ∼2.3 fold under oxidative stress condition and under the effect of anti-Leishmania drug, AmBisome respectively. The cell viability declined under the effect of MVK inhibitor viz: vanadyl sulfate (VS). The level of intracellular ROS was also found to be increased under the effect of MVK inhibitor. To confirm the findings, LdMVK over expression (LdMVK OE) and LdMVK knockdown (LdMVK KD) parasites were generated. The level of ergosterol, an important component of plasma membrane in L. donovani, was observed and found to be reduced by nearly 60 % in LdMVK KD parasite and increased by nearly 30 % in LdMVK OE parasites as compared to wild type. However, the ergosterol content was found to be elevated under oxidative stress. Furthermore, LdMVK was also found to be associated with maintaining the plasma membrane integrity and also in preventing the peroxidation of cellular lipids when exposed to oxidative stress. The above data clearly suggests that MVK has a vital role in protecting the parasite from oxidative stress. These findings may also explore the contribution of LdMVK in drug unresponsiveness which may help in future rational drug designing for leishmaniasis.