Background: The COVID-19 coronavirus, also known as the acute respiratory syndrome coronavirus, emerged as a significant global health concern. First identified in Wuhan, China, in December 2019, the virus rapidly spread to over 187 countries due to its high transmissibility. Until an effective treatment or vaccine is developed, preventive measures remain the only mandatory strategy to curb person-to-person transmission.
Aims and objectives: The study aimed to explore potential therapeutic options for COVID-19 by repurposing existing drugs. Specifically, the objective was to evaluate a library of clinically approved or investigational antiviral compounds through docking studies to identify candidates with high binding affinity to COVID-19 proteins.
Materials and methods: The study employed molecular docking techniques using the Maestro interface (Schrodinger Suite, LLC, NY) to assess the interaction of selected compounds with various COVID-19 protein targets. A total of 15 compounds were analyzed for their binding potential to multiple forms of the virus's proteins.
Results: The docking studies revealed that several compounds, particularly HIV protease inhibitors and RNA-dependent RNA polymerase inhibitors, demonstrated strong binding affinities to key COVID-19 enzymes. These interactions suggest their potential as therapeutic candidates for COVID-19 treatment.
Conclusion: The findings from this drug repurposing study highlight the potential of certain existing antiviral agents in the treatment of COVID-19. The identified compounds could serve as promising candidates for further investigation in the ongoing battle against the coronavirus pandemic.
Keywords: antiviral drugs; covid-19; dock score; molecular docking; sars-cov-2.
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