Synthesis, characterization and docking studies of amide ligands as anti-leishmanial agents.

Aim of this study was to synthesize new inhibitors on the basis of active site of aspartic protease enzyme and to evaluate their intended biological activity. A3D model of an enzyme was generated via homology modeling and series of novel amide ligands were synthesized by using a short high yield process, subsequently, analyzed in-silico and in-vitro anti-leishmanial activities. Characterization and identification was accomplished via NMR (H1& C13), infrared and mass spectroscopic techniques. Among all compound (4) was found to show significant activity (IC50 58±0.01) against Leishmania major (L. major) species. Furthermore, docking studies confirmed the inhibition of a targeted enzyme that supported the interaction of potent compound (4) with key residues (aspartic protease) via hydrogen bonds. Present study conferred about novel compound (4) as a promising compound to antagonize L. major activities in future.

Lethal toxic Dose (i.p LD50), total protein contents and comparative hemolytic potential of (99mTc labeled & non-labeled) Naja naja karachiensis venom.

Recent recognition about snake bite envenomation on June, 2017 as neglected tropical disease under category-A by World Health Organization advocated again its undeniable importance. Present circumstances reasoned to work on a neglected subspecies of Naja naja, i.e., Naja naja karachiensis (N. n. karachensis) has been documented for frequent deaths in Pakistan. In this study median lethal toxic dose (LD50) was determined intraperitoneally in Swiss albino mice and was found to be 2.0µg/g (2.0mg/kg) equal in potency to Naja pallida (red spitting African cobra). Total protein contents (188±0.011µg / 200µg of dry weight) were high enough (94%) to represent an arsenal of proteins. Furthermore, 99mTc was labeled 99.9% with venom and didn't find to alter hemolytic activity of venom in dose dependent manner at 125µg/ml (p>0.5), 250 µg/ml (p>0.1) and 500 µg/ml (p>0.1) when compared with its crude form. Present work will pave the way for proteomics study in effective production of antidote against specific species of snakes as dare demand of it has been felt since long period of time in Pakistan.