Remdesivir MD Simulations Suggest a More Favourable Binding to SARS-CoV-2 RNA Dependent RNA Polymerase Mutant P323L Than Wild-Type

Remdesivir MD Simulations Suggest a More Favourable Binding to SARS-CoV-2 RNA Dependent RNA Polymerase Mutant P323L Than Wild-Type

SARS-CoV-2 RNA-dependent RNA polymerase (RdRp) protein is the target for the antiviral drug Remdesivir (RDV). With RDV clinical trials on COVID-19 patients showing a reduced hospitalisation time. During the spread of the virus, the RdRp has developed several mutations, with the most frequent being A...

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Published in:Biomolecules (Basel, Switzerland) Vol. 11; no. 7; p. 919
Main Authors: Mohammad, Anwar, Al-Mulla, Fahd, Wei, Dong-Qing, Abubaker, Jehad
Format: Journal Article
Language:English
Published: Basel MDPI AG 22-06-2021
MDPI
Subjects:
Adenosine
Antiviral drugs
Binding sites
Carbon
Clinical trials
Coronaviruses
COVID-19
COVID-19 vaccines
Disease transmission
DNA-directed RNA polymerase
Ebola virus
Energy
FDA approval
Flexibility
Genomes
Ligands
molecular dynamic simulations
Mortality
Mutation
Patients
Principal components analysis
Proteins
Remdesivir
RNA dependent RNA polymerase
RNA polymerase
RNA-directed RNA polymerase
SARS-CoV-2
Severe acute respiratory syndrome coronavirus 2
Simulation
Systems stability
Viruses
United States > US
Europe
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Abstract SARS-CoV-2 RNA-dependent RNA polymerase (RdRp) protein is the target for the antiviral drug Remdesivir (RDV). With RDV clinical trials on COVID-19 patients showing a reduced hospitalisation time. During the spread of the virus, the RdRp has developed several mutations, with the most frequent being A97V and P323L. The current study sought to investigate whether A97V and P323L mutations influence the binding of RDV to the RdRp of SARS-CoV-2 compared to wild-type (WT). The interaction of RDV with WT-, A97V-, and P323L-RdRp were measured using molecular dynamic (MD) simulations, and the free binding energies were extracted. Results showed that RDV that bound to WT- and A97V-RdRp had a similar dynamic motion and internal residue fluctuations, whereas RDV interaction with P323L-RdRp exhibited a tighter molecular conformation, with a high internal motion near the active site. This was further corroborated with RDV showing a higher binding affinity to P323L-RdRp (−24.1 kcal/mol) in comparison to WT-RdRp (−17.3 kcal/mol). This study provides insight into the potential significance of administering RDV to patients carrying the SARS-CoV-2 P323L-RdRp mutation, which may have a more favourable chance of alleviating the SARS-CoV-2 illness in comparison to WT-RdRp carriers, thereby suggesting further scientific consensus for the usage of Remdesivir as clinical candidate against COVID-19.
AbstractList SARS-CoV-2 RNA-dependent RNA polymerase (RdRp) protein is the target for the antiviral drug Remdesivir (RDV). With RDV clinical trials on COVID-19 patients showing a reduced hospitalisation time. During the spread of the virus, the RdRp has developed several mutations, with the most frequent being A97V and P323L. The current study sought to investigate whether A97V and P323L mutations influence the binding of RDV to the RdRp of SARS-CoV-2 compared to wild-type (WT). The interaction of RDV with WT-, A97V-, and P323L-RdRp were measured using molecular dynamic (MD) simulations, and the free binding energies were extracted. Results showed that RDV that bound to WT- and A97V-RdRp had a similar dynamic motion and internal residue fluctuations, whereas RDV interaction with P323L-RdRp exhibited a tighter molecular conformation, with a high internal motion near the active site. This was further corroborated with RDV showing a higher binding affinity to P323L-RdRp (−24.1 kcal/mol) in comparison to WT-RdRp (−17.3 kcal/mol). This study provides insight into the potential significance of administering RDV to patients carrying the SARS-CoV-2 P323L-RdRp mutation, which may have a more favourable chance of alleviating the SARS-CoV-2 illness in comparison to WT-RdRp carriers, thereby suggesting further scientific consensus for the usage of Remdesivir as clinical candidate against COVID-19.
Author Wei, Dong-Qing
Mohammad, Anwar
Abubaker, Jehad
Al-Mulla, Fahd
AuthorAffiliation 1 Department of Biochemistry and Molecular Biology, Dasman Diabetes Institute, Dasman 15462, Kuwait
2 Department of Genetics and Bioinformatics, Dasman Diabetes Institute, Dasman 15462, Kuwait; fahd.almulla@dasmaninstitute.org
3 Department of Bioinformatics and Biological Statistics, Shanghai Jiao Tong University, Shanghai 200240, China; dqwei@sjtu.edu.cn
AuthorAffiliation_xml – name: 1 Department of Biochemistry and Molecular Biology, Dasman Diabetes Institute, Dasman 15462, Kuwait
– name: 2 Department of Genetics and Bioinformatics, Dasman Diabetes Institute, Dasman 15462, Kuwait; fahd.almulla@dasmaninstitute.org
– name: 3 Department of Bioinformatics and Biological Statistics, Shanghai Jiao Tong University, Shanghai 200240, China; dqwei@sjtu.edu.cn
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  surname: Abubaker
  fullname: Abubaker, Jehad
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Snippet SARS-CoV-2 RNA-dependent RNA polymerase (RdRp) protein is the target for the antiviral drug Remdesivir (RDV). With RDV clinical trials on COVID-19 patients...
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SubjectTerms Adenosine
Antiviral drugs
Binding sites
Carbon
Clinical trials
Coronaviruses
COVID-19
COVID-19 vaccines
Disease transmission
DNA-directed RNA polymerase
Ebola virus
Energy
FDA approval
Flexibility
Genomes
Ligands
molecular dynamic simulations
Mortality
Mutation
Patients
Principal components analysis
Proteins
Remdesivir
RNA dependent RNA polymerase
RNA polymerase
RNA-directed RNA polymerase
SARS-CoV-2
Severe acute respiratory syndrome coronavirus 2
Simulation
Systems stability
Viruses
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Title Remdesivir MD Simulations Suggest a More Favourable Binding to SARS-CoV-2 RNA Dependent RNA Polymerase Mutant P323L Than Wild-Type
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