Nancy Tripathi scite author profile

3CL like protease (3CLpro or Mpro) is one of the main proteases of 2019-nCoV. The 3CLpro is a nonstructural protein of SARS-CoV and has an essential role in viral replication and transcription, thus, could be a potential target for anti-SARS drug development. The present study employed ligand-and structure-based approaches to identify the potent inhibitors of 2019-nCoV protease. The e-pharmacophore developed from 3CLpro-1 yielded virtual hits, that were subjected through drug likeliness and PAINS filters to remove interfering compounds. Further comprehensive docking studies, free energy calculations and ADMET studies resulted in two virtual leads-MolPort-000-410-348 and MolPort-002-530-156. The compounds MolPort-000-410-348 and MolPort-002-530-156 displayed good docking score of À12.09 and À13.38 Kcal/mol and free binding energy of À63.34 ± 2.03 and À61.52 ± 2.24 Kcal/ mol, respectively. The compounds also exhibited satisfactory predicted ADMET profile and were subjected to molecular dynamic (MD) studies. The MD simulation produced stable complexes of these ligands with 3CLpro protein and ligand RMSD in acceptable limits.

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Small Molecule CDK Inhibitors for the Therapeutic Management of Cancer

Goel

Tripathi

Bhardwaj

et al. 2020

CTMC

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: Cyclin-dependent kinases (CDKs) is a group of multifunctional enzymes consisting of catalytic and regulatory subunits. The regulatory subunit, cyclin remain dissociated under normal circumstances, complexation of cyclin with the catalytic subunit of CDK leads to its activation for phosphorylation of protein substrates. The primary role of CDKs is in the regulation of the cell cycle. Retinoblastoma protein (Rb) is one of the widely investigated tumor suppressor protein substrate of CDK, which prevent cells from entering into cell-cycle under normal conditions. Phosphorylation of Rb by CDKs causes its inactivation and ultimately allows cells to enter a new cell cycle. Many cancers are associated with hyperactivation of CDKs as a result of mutation of the CDK genes or CDK inhibitor genes. Therefore, CDK modulators are of great interest to explore as novel therapeutic agents against cancer and led to the discovery of several CDK inhibitors to clinics. This review focuses on the current progress and development of anti-cancer CDK inhibitors from preclinical to clinical and synthetic to natural small molecules.

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Antiproliferative Potential of Gloriosine: A Lead for Anticancer Drug Development

et al. 2022

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Gloriosine, a colchicine-like natural product, is widely obtained from Gloriosa superba roots. Despite having remarkable anticancer potential, colchicine could not pave its way to the clinic, while gloriosine is yet to be investigated for its pharmacological effects. In the present work, 14 compounds, including gloriosine, were isolated from the G. superba roots and were characterized by NMR spectroscopy. Gloriosine ( 11 ) was evaluated for its antiproliferative activity against a panel of 15 human cancer cell lines of different tissues and normal breast cells. Gloroisine ( 11 ) displayed significant antiproliferative activity against various cancer cell lines selectively, with IC 50 values ranging from 32.61 to 100.28 nM. Further, gloriosine ( 11 ) was investigated for its apoptosis-inducing ability and found to form apoptotic bodies. It also inhibited A549 cell migration in the wound healing assay. Finally, molecular docking studies were performed to explore the possible binding modes of gloriosine with the colchicine-binding site of tubulin protein. Our findings suggested that gloriosine might be a potential lead for anticancer drug discovery.

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Nancy Tripathi

Virtual screening and molecular simulation study of natural products database for lead identification of novel coronavirus main protease inhibitors

Small Molecule CDK Inhibitors for the Therapeutic Management of Cancer

Antiproliferative Potential of Gloriosine: A Lead for Anticancer Drug Development

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