Mevalonate kinase of Leishmania donovani promotes its survival and plays a pivotal role in pathogenesis.

The infectivity of Leishmania is determined by its ability to invade and evade host and its thriving capacity within the macrophage. Our study revealed the role of Leishmania donovani mevalonate kinase (MVK), an enzyme of mevalonate pathway in visceral leishmaniasis pathogenesis. Peritoneal exudate cells (PEC)-derived macrophages from BALB/c mice were infected with wild type (WT), MVK over expressing (MVK OE) and knockdown (KD) parasites and MVK OE parasites were found to be more infective than WT and MVK KD parasites. Incubation of macrophages with MVK OE parasites declined inducible nitric oxide synthase (iNOS) expression as well as nitric oxide (NO) production, both by 2 times in comparison to WT parasites. Moreover, ∼3 fold increase in Arginase1 expression indicated that MVK might induce polarization of macrophage towards M2, favouring the survival of parasite within the macrophages. Post 24 h infection of the macrophages with mutant strains, the levels of different cytokines (TNF-α, IL-12, IL-10 and IFN-γ) were measured. Infection of macrophages with MVK OE parasites showed an increase in the level of anti-inflammatory cytokine: IL-10 while infection with MVK KD parasites exhibited an increase in the level of pro-inflammatory cytokines: TNF-α, IL-12, and IFN-γ. Hence, Leishmania donovani mevalonate kinase (LdMVK) modulates macrophage functions and has a significant role in pathogenesis.

Drugs resistance and new strategies of prevention against Malaria: An ongoing battle.

From ancient times until 21st century, Malaria has remained a fatal disease. It causes death in many poor and developing countries. Excluding vector control, Antimalarial drugs are the most reliable and effective weapon to tackle this severe disease. The emergence of antimalarial drug resistance in Plasmodium spp. becomes a barrier in Malaria elimination program as there has been no effective antimalarial vaccine till today. Apart from artemisinin, most of the antimalarial drugs have become resistant against malaria at present. Although, reduced efficacy of artemisinin-based combination therapy (ACT) has also been reported from southeast regions of Asia. Mutation of some genes within the parasite play a vital role in this drug resistance. Therefore, malaria is still a prime threat to human death and an unsolved problem. Newly emerging approaches like, vaccine development, plants based antimalarial drugs, nanoparticles, next generation antimalarial drugs should be taken & supported. In addition to that, public awareness is much needed for understanding the fatality of the disease and for encouraging self-protection and early treatment.