Millettia pachycarpa Benth (Leguminosae) has a usage in traditional medicine system practiced among the Lushai tribes of Mizoram, a state in North East India, who customarily consume the aqueous extract of the root peel of the plant to get rid of intestinal worm infections. The crude ethanol, methanol, and acetone fractions of the plant were assayed against Raillietina echinobothrida, the intestinal cestode parasite of domestic fowl, to authenticate the putative anthelmintic efficacy and cestocidal potential in particular of the plants. In vitro exposure of the worm to the extract at a concentration of 25 mg/mL phosphate buffered saline (at 37 degrees C +/- 1 degrees C) revealed distortion and disruption of mitochondria, nucleus, nucleolus, nuclear membrane, basal lamina, and tegumental vacuolization in the distal cytoplasm leading to scar formation in the surface. The possible use of the plant as a potential anthelmintic against cestode parasite is discussed.
The ultrastructural alterations in the tegument of Fasciolopsis buski in response to incubation in the alcoholic extract of Alpinia nigra were evaluated using transmission electron microscopy. The body tegument of the trematode is composed of an external syncytial layer, musculature, and an inner layer containing tegumental cells. The syncytium comprises various organelles like mitochondria, lysosomes, and tegumentary bodies of the type 2 kind with rare sighting of the type 1. Severe distortion and disorganization of the tegument was revealed in the parasite exposed to the A. nigra extract in the current study. The extent of vacuolization was such that vacuoles proceeded down to the basal lamina causing the syncytium to separate from the tegument at different places. There was depletion of parenchyma material and loss of connecting tubules running down from the syncytium to the tegumental cells causing the cells to be deprived of any proper boundaries.
The success of Mycobacterium tuberculosis (Mtb) as a pathogen stems from its ability to manipulate the host macrophage towards increased lipid biogenesis and lipolysis inhibition. Inhibition of lipolysis requires augmented uptake of glucose into the host cell causing an upregulation of the glucose transporters GLUT1 and GLUT3 on the cell surface. Mechanism behind this upregulation of the GLUT proteins during Mtb infection is hitherto unknown and demands intensive investigation in order to understand the pathways linked with governing them. Our endeavor to investigate some of the key proteins that have been found to be affected during Mtb infection led us to investigate host molecular pathways such as Akt and PPAR-γ that remain closely associated with the survival of the bacilli by modulating the localization of glucose transporters GLUT1 and GLUT3.
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