Pharmaceutical Sciences and Natural Products - Research Publications
Permanent URI for this collectionhttps://kr.cup.edu.in/handle/32116/56
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Item Design, one-pot synthesis, computational and biological evaluation of diaryl benzimidazole derivatives as MEK inhibitors(Taylor and Francis Ltd., 2023-10-09T00:00:00) Ram, Teja; Singh, Ankit Kumar; Pathak, Prateek; Kumar, Adarsh; Singh, Harshwardhan; Grishina, Maria; Novak, Jurica; Kumar, PradeepMEK mutations are more common in various human malignancies, such as pancreatic cancer (70�90%), mock melanoma (50%), liver cancer (20�40%), colorectal cancer (25�35%), melanoma (15�20%), non-small cell lung cancer (10�20%) and basal breast cancer (1�5%). Considering the significance of MEK mutations in diverse cancer types, the rational design of the proposed compounds relies on the structural resemblance to FDA-approved MEK inhibitors like selumetinib and binimetinib. The compound under design features distinct substitutions at the benzimidazole moiety, specifically at positions 2 and 3, akin to the FDA-approved drugs, albeit differing in positions 5 and 6. Subsequent structural refinement was guided by key elements including the DFG motif, hydrophobic pocket and catalytic loop of the MEK protein. A set of 15 diverse diaryl benzimidazole derivatives (S1�S15) were synthesized via a one-pot approach and characterized through spectroscopic techniques, including MASS, IR, 1H NMR and 13C NMR. In vitro anticancer activities of all the synthesized compounds were evaluated against four cancer cell lines, A375, HT ?29, A431 and HFF, along with the standard drug trametinib. Molecular docking was performed for all synthesized compounds (S1�15), followed by 950 ns molecular dynamics simulation studies for the promising compounds S1, S5 and S15. The stability of these complexes was assessed by calculating the root-mean-square deviation, solvent accessible surface area and gyration radius relative to their parent structures. Additionally, free energy of binding calculations were performed. Based on the biological and computational results, S15 was the most potent compound and S1 and S5 are comparable to the standard drug trametinib. Communicated by Ramaswamy H. Sarma. � 2023 Informa UK Limited, trading as Taylor & Francis Group.Item Flavonoids as promising anticancer agents: an in silico investigation of ADMET, binding affinity by molecular docking and molecular dynamics simulations(Taylor and Francis Ltd., 2022-09-27T00:00:00) Biharee, Avadh; Yadav, Arpita; Jangid, Kailash; Singh, Yogesh; Kulkarni, Swanand; Sawant, Devesh M.; Kumar, Pradeep; Thareja, Suresh; Jain, Akhlesh KumarCancer is one of the most concerning diseases to humankind. Various treatment strategies are being employed for its treatment, out of which use of natural products is an essential one. Flavonoids have proven to be promising anticancer targets since decades. Also, tubulin is a significant biological target for the development of anticancer agents due to its crucial role in mitosis and abundance throughout the body. In the current study, in silico ADMET parameters of 104 flavonoids were examined, followed by molecular docking with the colchicine binding site of Tubulin protein (PDB; Id 4O2B). The best conformation from each flavonoid subcategory with the best docking score (MolDock score) was further subjected to 100 ns of molecular dynamics to investigate the protein-ligand complex�s stability. Different parameters such as RMSD, RMSF, rGy and SASA were calculated for the six flavonoids using molecular dynamic studies. The top most compound from all the six subcategories of flavonoids elicited best behavior in the colchicine binding site of Tubulin protein. This in silico study employing molecular docking and molecular dynamics simulation provides strong evidence for flavonoids to be excellent anti-tubulin agents for the treatment of cancer. Communicated by Ramaswamy H. Sarma. � 2022 Informa UK Limited, trading as Taylor & Francis Group.