Pim-3 (proviral integration site moloney murine leukemia virus-3) is an oncogene which encodes proteins belonging to serine/threonine kinase family, and PIM subfamily. It is generally over expressed in epithelial and hematological tumors. It is known to involve in numerous cellular functions such as cell growth, differentiation, survival, tumorigenesis and apoptosis. It also plays a crucial role in regulation of signal transduction cascades. Therefore it emerged as a hopefultherapeutic target for cancer treatment. In current study, indole derivatives having potent inhibitory activity against Pim 3 were taken and pharmacophore based virtual screening was carried out. A five point pharmacophore hypothesis with one hydrogen bond acceptor, one hydrogen bond donor and three aromatic rings i.e., ADRRR was developed with acceptable R2and Q2 values of 0.913 and 0.748 respectively. It was employed as a query and screening was conducted against Asinex and Otava lead library databases to screen out potent drug like candidates. The obtained compounds were subjected to SP, XP docking using 3D model of pim-3 which was constructed through comparative homology modelling and finally binding free energies were calculated for top hits. The docking and binding free energy studies revealed that six hit molecules showed higher binding energy in comparison to the best active molecule. Finally, MD simulations of the top hit with highest binding energy was carried out which indicated that the obtained hit N1 formed a stable complex with pim-3. We believe that these combined protocols will be helpful and cooperative to discover and design more potent pim-3 inhibitors in near future.
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