Author: T, Muthu Kumar; K, Rohini; James, Nivya; V, Shanthi; K, Ramanathan
Title: Discovery of potent Covidâ€19 main protease inhibitors using integrated drugâ€repurposing strategy Cord-id: khp4w0g7 Document date: 2021_4_14
ID: khp4w0g7
Snippet: The emergence and rapid spreading of novel SARSâ€CoVâ€2 across the globe represent an imminent threat to public health. Novel antiviral therapies are urgently needed to overcome this pandemic. Given the significant role of the main protease of Covidâ€19 for virus replication, we performed a drugâ€repurposing study using the recently deposited main protease structure, 6LU7. For instance, pharmacophore†and eâ€pharmacophoreâ€based hypotheses such as AARRH and AARR, respectively, were devel
Document: The emergence and rapid spreading of novel SARSâ€CoVâ€2 across the globe represent an imminent threat to public health. Novel antiviral therapies are urgently needed to overcome this pandemic. Given the significant role of the main protease of Covidâ€19 for virus replication, we performed a drugâ€repurposing study using the recently deposited main protease structure, 6LU7. For instance, pharmacophore†and eâ€pharmacophoreâ€based hypotheses such as AARRH and AARR, respectively, were developed using available small molecule inhibitors and utilized in the screening of the DrugBank repository. Further, a hierarchical docking protocol was implemented with the support of the Glide algorithm. The resultant compounds were then examined for their binding free energy against the main protease of Covidâ€19 by means of the Primeâ€MM/GBSA algorithm. Most importantly, the machine learningâ€based AutoQSAR algorithm was used to predict the antiviral activities of resultant compounds. The hit molecules were also examined for their drugâ€likeness and toxicity parameters through the QikProp algorithm. Finally, the hit compounds activity against the main protease was validated using molecular dynamics simulation studies. Overall, the present analysis yielded two potential inhibitors (DB02986 and DB08573) that are predicted to bind with the main protease of Covidâ€19 better than currently used drug molecules such as N3 (cocrystallized native ligand), lopinavir, and ritonavir.
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