Author: Pooja,; Chowdhury, Papia
Title: Repurposing the Combination Drug of Favipiravir, Hydroxychloroquine and Oseltamivir as a Potential Inhibitor against SARS-CoV-2: A Computational Study Cord-id: 25jn1ji8 Document date: 2020_11_8
ID: 25jn1ji8
Snippet: The virus SARS-CoV-2 has created a situation of global emergency all over the world from the last few months. We are witnessing a helpless situation due to COVID-19 as no vaccine or drug is effective against the disease. In the present study, we have tested the applicability of some combination drugs against COVID-19. We have tried to understand the mechanism of action of some repurposed drugs: Favipiravir (F), Hydroxychloroquine (H) and Oseltamivir (O). The ADME analysis have suggested strong i
Document: The virus SARS-CoV-2 has created a situation of global emergency all over the world from the last few months. We are witnessing a helpless situation due to COVID-19 as no vaccine or drug is effective against the disease. In the present study, we have tested the applicability of some combination drugs against COVID-19. We have tried to understand the mechanism of action of some repurposed drugs: Favipiravir (F), Hydroxychloroquine (H) and Oseltamivir (O). The ADME analysis have suggested strong inhibitory possibility of F, H, O combination towards receptor protein of $3CL^{pro}$ of SARS-CoV-2 virus. The strong binding affinity, number of hydrogen bond interaction between inhibitor, receptor and lower inhibition constant computed from molecular docking validated the better complexation possibility of F+H+O: $3CL^{pro}$ combination. Various thermodynamical output from Molecular dynamics (MD) simulations like potential energy ($E_g$), temperature (T), density, pressure, SASA energy, interaction energies, Gibbs free energy ($\Delta G_{bind}$) etc., also favored the complexation between F+H+O and CoV-2 protease. Our In-Silico results have recommended the strong candidature of combination drugs Favipiravir, Hydroxychloroquine and Oseltamivir as a potential lead inhibitor for targeting SARS-CoV-2 infections.
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