4.7 Article

Structure-based virtual screening and molecular docking approaches to identify potential inhibitors against KIF2C to combat glioma

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TAYLOR & FRANCIS INC
DOI: 10.1080/07391102.2023.2278750

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Glioma; KIF2C; virtual screening; Lipinski's rule of five; MD simulation

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In this study, new drug candidates that may function as KIF2C enzyme inhibitors were discovered. Through virtual screening and molecular docking experiments, the best compounds that bind with KIF2C protein were identified and further analyzed for stability and energy contribution. These findings indicate the potential of these compounds to inhibit the biological function of KIF2C and call for further research.
Glioma, a kind of malignant brain tumor, is extremely lethal. Kinesin family member 2C (KIF2C) was found to have an aberrant expression in several cancer types, including lung cancer and glioma. KIF2C may therefore be a useful therapeutic target for the treatment of glioma. In the current study, new drug candidates that may function as KIF2C enzyme inhibitors were discovered. MTi OpenScreen was used to carry out the structure-based virtual screening of an inbuilt drug library containing 150,000 compounds. These compounds belong to different classes, such as natural product-based compounds (NP-lib), purchasable approved drugs (Drugs-lib), and food constituents compound collection (FOOD-lib). Based on their binding affinities, a total of 84 compounds were further pushed to calculate ADMET properties. The compounds (16) meeting the ADMET cutoff ranges were then further docked to the receptor to find their plausible binding modes using the Glide tool's standard precision (SP) technique. The docking results were examined using the Glide gscore, and the best binding compounds (Rimacalib and Sarizotan) were chosen to test their stability with KIF2C protein through molecular dynamics (MD) simulation. Similarly, Principal Component Analysis and cross-correlation matrix were also examined. The MM/GBSA binding free energies showed a considerable energy contribution in the binding of hits with the KIF2C. Collectively, these findings strongly suggest the potential of the lead compounds to inhibit the biological function of KIF2C, emphasizing the need for further investigation in this area.Communicated by Ramaswamy H. Sarma

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