Atorvastatin ameliorates viral burden and neural stem/ progenitor cell (NSPC) death in an experimental model of Japanese encephalitis

Japanese encephalitis virus, a neurotropic flavivirus, causes sporadic encephalitis with nearly 25% fatal casereports. JEV infects neural stem/progenitor cells (NSPCs) and decreases their proliferation. Statin, a commonlyused class of cholesterol lowering drug, has been shown to possess potent anti-inflammatory and neuroprotective effects in acute brain injury and chronic neurodegenerative conditions. Here, we aimed to check theefficacy of atorvastatin in alleviating the symptoms of Japanese encephalitis (JE). Using BALB/c mouse modelof JEV infection, we observed that atorvastatin effectively reduces viral load in the subventricular zone (SVZ)of infected pups and decreases the resultant cell death. Furthermore, atorvastatin abrogates microglial activation and production of proinflammatory cyto/chemokine production post JEV infection in vivo. It alsoreduced interferon-b response in the neurogenic environs. The neuroprotective role of atorvastatin is againevident from the rescued neurosphere size and decreased cell death in vitro. It has also been observed that uponatorvastatin administration, cell cycle regulatory proteins and cell survival proteins are also restored to theirrespective expression level as observed in uninfected animals. Thus the antiviral, immunomodulatory andneuroprotective roles of atorvastatin reflect in our experimental observations. Therefore, this drug broadens apath for future therapeutic measures against JEV infection.

Induction of apoptosis by zerumbone isolated from Zingiber zerumbet (L.) Smith in protozoan parasite Leishmania donovani due to oxidative stress

Abstract In the present context of emergence of resistance aligned with the conventional anti-leishmanial drugs and occasional treatment failure compelled us to continue the search for replaceable therapeutic leads against Leishmaniainfection. Various ginger spices of the Zingiberaceae family are widely used as spices, flavouring agents, and medicines in Southeast Asia because of their unique flavour as well as due to their medicinal properties. Zerumbone, a natural component of Zingiber zerumbet (L.) Smith, has been studied for its pharmacological potential as antiulcer, antioxidant, anticancer, and antimicrobial. In this study, we have shown that zerumbone could induce ROS mediated apoptosis in Leishmania donovani promastigotes and also found effective in reducing intracellular amastigotes in infected-macrophages. We emphasized the potential of zerumbone to be employed in the development of new therapeutic drugs against L. donovaniinfection and provided the basis for future research on the application of transitional medicinal plants.

Prospective microglia and brain macrophage distribution pattern in normal rat brain shows age sensitive dispersal and stabilization with development.

The monocytic lineage cells in brain, generally speaking brain macrophage and/or microglia show some dissimilar distribution patterns and disagreement regarding their origin and onset in brain. Here, we investigated its onset and distribution/colonization pattern in normal brain with development. Primarily, early and late embryonic stages, neonate and adult brains were sectioned for routine H/E staining; a modified silver-gold staining was used for discriminating monocytic lineage cells in brain; and TEM to deliver ultramicroscopic details of these cells in brain. Immunofluorescence study with CD11b marker revealed the distribution of active microglia/macrophage like cells. Overall, in early embryonic day 12, the band of densely stained cells are found at the margin of developing ventricles and cells sprout from there dispersed towards the outer edge. However, with development, this band shrunk and the dispersion trend decreased. The deeply stained macrophage like cell population migration from outer cortex to ventricle observed highest in late embryonic days, continued with decreased amount in neonates and settled down in adult. In adult, a few blood borne macrophage like cells were observed through the vascular margins. TEM study depicted less distinguishable features of cells in brain in early embryo, whereas from late embryo to adult different neuroglial populations and microglia/macrophages showed distinctive features and organization in brain. CD11b expression showed some similarity, though not fully, with the distribution pattern depending on the differentiation/activation status of these macrophage lineage cells. This study provides some generalized spatial and temporal pattern of macrophage/microglia distribution in rat brain, and further indicates some intrigue areas that need to be addressed.