Main protease inhibitors and drug surface hotspots for the treatment of COVID-19: A drug repurposing and molecular docking approach

Main protease inhibitors and drug surface hotspots for the treatment of COVID-19: A drug repurposing and molecular docking approach

Here, drug repurposing and molecular docking were employed to screen approved MPP inhibitors and their derivatives to suggest a specific therapeutic agent for the treatment of COVID-19. The approved MPP inhibitors against HIV and HCV were prioritized, while RNA dependent RNA Polymerase (RdRp) inhibi...

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Main Authors: Mahmudul Hasan, Md. Sorwer Alam Parvez, Kazi Faizul Azim, Md. Abdus Shukur Imran, Topu Raihan, Airin Gulshan, Samuel Muhit, Rubaiat Nazneen Akhand, Syed Sayeem Uddin Ahmed, Md Bashir Uddin
Format: Article
Language:English
Published: Elsevier 2021-08-01
Series:Biomedicine & Pharmacotherapy
Subjects:
Main protease protein (MPP) inhibitors
SARS-CoV-2
COVID-19
Drug repurposing
Molecular docking
Online Access:http://www.sciencedirect.com/science/article/pii/S0753332221005242
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spelling doaj-160aabfae8554a05894559ac1ed2c2382021-06-19T04:52:09ZengElsevierBiomedicine & Pharmacotherapy0753-33222021-08-01140111742Main protease inhibitors and drug surface hotspots for the treatment of COVID-19: A drug repurposing and molecular docking approachMahmudul Hasan0Md. Sorwer Alam Parvez1Kazi Faizul Azim2Md. Abdus Shukur Imran3Topu Raihan4Airin Gulshan5Samuel Muhit6Rubaiat Nazneen Akhand7Syed Sayeem Uddin Ahmed8Md Bashir Uddin9Department of Pharmaceuticals and Industrial Biotechnology, Sylhet Agricultural University, Sylhet 3100, BangladeshDepartment of Genetic Engineering and Biotechnology, Shahjalal University of Science and Technology, Sylhet 3114, BangladeshDepartment of Microbial Biotechnology, Sylhet Agricultural University, Sylhet 3100, BangladeshDepartment of Pharmaceuticals and Industrial Biotechnology, Sylhet Agricultural University, Sylhet 3100, BangladeshDepartment of Genetic Engineering and Biotechnology, Shahjalal University of Science and Technology, Sylhet 3114, BangladeshFaculty of Biotechnology and Genetic Engineering, Sylhet Agricultural University, Sylhet 3100, BangladeshDepartment of Epidemiology and Public Health, Sylhet Agricultural University, Sylhet 3100, BangladeshDepartment of Biochemistry and Chemistry, Sylhet Agricultural University, Sylhet 3100, BangladeshDepartment of Epidemiology and Public Health, Sylhet Agricultural University, Sylhet 3100, Bangladesh; Corresponding authors.Department of Medicine, Sylhet Agricultural University, Sylhet 3100, Bangladesh; Corresponding authors.Here, drug repurposing and molecular docking were employed to screen approved MPP inhibitors and their derivatives to suggest a specific therapeutic agent for the treatment of COVID-19. The approved MPP inhibitors against HIV and HCV were prioritized, while RNA dependent RNA Polymerase (RdRp) inhibitor remdesivir including Favipiravir, alpha-ketoamide were studied as control groups. The target drug surface hotspot was also investigated through the molecular docking technique. Molecular dynamics was performed to determine the binding stability of docked complexes. Absorption, distribution, metabolism, and excretion analysis was conducted to understand the pharmacokinetics and drug-likeness of the screened MPP inhibitors. The results of the study revealed that Paritaprevir (−10.9 kcal/mol) and its analog (CID 131982844) (−16.3 kcal/mol) showed better binding affinity than the approved MPP inhibitors compared in this study, including remdesivir, Favipiravir, and alpha-ketoamide. A comparative study among the screened putative MPP inhibitors revealed that the amino acids T25, T26, H41, M49, L141, N142, G143, C145, H164, M165, E166, D187, R188, and Q189 are at potentially critical positions for being surface hotspots in the MPP of SARS-CoV-2. The top 5 predicted drugs (Paritaprevir, Glecaprevir, Nelfinavir, and Lopinavir) and the topmost analog showed conformational stability in the active site of the SARS-CoV-2 MP protein. The study also suggested that Paritaprevir and its analog (CID 131982844) might be effective against SARS-CoV-2. The current findings are limited to in silico analysis and lack in vivo efficacy testing; thus, we strongly recommend a quick assessment of Paritaprevir and its analog (CID 131982844) in a clinical trial.http://www.sciencedirect.com/science/article/pii/S0753332221005242Main protease protein (MPP) inhibitorsSARS-CoV-2COVID-19Drug repurposingMolecular docking
collection DOAJ
language English
format Article
sources DOAJ
author Mahmudul Hasan
Md. Sorwer Alam Parvez
Kazi Faizul Azim
Md. Abdus Shukur Imran
Topu Raihan
Airin Gulshan
Samuel Muhit
Rubaiat Nazneen Akhand
Syed Sayeem Uddin Ahmed
Md Bashir Uddin
spellingShingle Mahmudul Hasan
Md. Sorwer Alam Parvez
Kazi Faizul Azim
Md. Abdus Shukur Imran
Topu Raihan
Airin Gulshan
Samuel Muhit
Rubaiat Nazneen Akhand
Syed Sayeem Uddin Ahmed
Md Bashir Uddin
Main protease inhibitors and drug surface hotspots for the treatment of COVID-19: A drug repurposing and molecular docking approach
Biomedicine & Pharmacotherapy
Main protease protein (MPP) inhibitors
SARS-CoV-2
COVID-19
Drug repurposing
Molecular docking
author_facet Mahmudul Hasan
Md. Sorwer Alam Parvez
Kazi Faizul Azim
Md. Abdus Shukur Imran
Topu Raihan
Airin Gulshan
Samuel Muhit
Rubaiat Nazneen Akhand
Syed Sayeem Uddin Ahmed
Md Bashir Uddin
author_sort Mahmudul Hasan
title Main protease inhibitors and drug surface hotspots for the treatment of COVID-19: A drug repurposing and molecular docking approach
title_short Main protease inhibitors and drug surface hotspots for the treatment of COVID-19: A drug repurposing and molecular docking approach
title_full Main protease inhibitors and drug surface hotspots for the treatment of COVID-19: A drug repurposing and molecular docking approach
title_fullStr Main protease inhibitors and drug surface hotspots for the treatment of COVID-19: A drug repurposing and molecular docking approach
title_full_unstemmed Main protease inhibitors and drug surface hotspots for the treatment of COVID-19: A drug repurposing and molecular docking approach
title_sort main protease inhibitors and drug surface hotspots for the treatment of covid-19: a drug repurposing and molecular docking approach
publisher Elsevier
series Biomedicine & Pharmacotherapy
issn 0753-3322
publishDate 2021-08-01
description Here, drug repurposing and molecular docking were employed to screen approved MPP inhibitors and their derivatives to suggest a specific therapeutic agent for the treatment of COVID-19. The approved MPP inhibitors against HIV and HCV were prioritized, while RNA dependent RNA Polymerase (RdRp) inhibitor remdesivir including Favipiravir, alpha-ketoamide were studied as control groups. The target drug surface hotspot was also investigated through the molecular docking technique. Molecular dynamics was performed to determine the binding stability of docked complexes. Absorption, distribution, metabolism, and excretion analysis was conducted to understand the pharmacokinetics and drug-likeness of the screened MPP inhibitors. The results of the study revealed that Paritaprevir (−10.9 kcal/mol) and its analog (CID 131982844) (−16.3 kcal/mol) showed better binding affinity than the approved MPP inhibitors compared in this study, including remdesivir, Favipiravir, and alpha-ketoamide. A comparative study among the screened putative MPP inhibitors revealed that the amino acids T25, T26, H41, M49, L141, N142, G143, C145, H164, M165, E166, D187, R188, and Q189 are at potentially critical positions for being surface hotspots in the MPP of SARS-CoV-2. The top 5 predicted drugs (Paritaprevir, Glecaprevir, Nelfinavir, and Lopinavir) and the topmost analog showed conformational stability in the active site of the SARS-CoV-2 MP protein. The study also suggested that Paritaprevir and its analog (CID 131982844) might be effective against SARS-CoV-2. The current findings are limited to in silico analysis and lack in vivo efficacy testing; thus, we strongly recommend a quick assessment of Paritaprevir and its analog (CID 131982844) in a clinical trial.
topic Main protease protein (MPP) inhibitors
SARS-CoV-2
COVID-19
Drug repurposing
Molecular docking
url http://www.sciencedirect.com/science/article/pii/S0753332221005242
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