Negin Alizadehmohajer scite author profile

Coronavirus disease 2019 is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). We have used bioinformatics to investigate seventeen mutations in the spike protein of SARS-CoV-2, as this mediates infection of human cells and is the target of most vaccine strategies and antibody-based therapies. Two mutations, H146Y and S221W, were identified as being most pathogenic. Mutations at positions D614G, A829T, and P1263L might also have deleterious effects on protein function. We hypothesized that candidate small molecules may be repurposed to combat viral infection. We investigated changes in binding energies of the ligands and the mutant proteins by assessing molecular docking. For an understanding of cellular function and organization, protein-protein interactions are also critical. Protein-protein docking for naïve and mutated structures of SARS-CoV-2 S protein was evaluated for their binding energy with the angiotensin-converting enzyme 2 (ACE2). These interactions might limit the binding of the SARS-CoV-2 spike protein to the ACE2 receptor or may have a deleterious effect on protein function that may limit infection. These results may have important implications for the transmission of SARS-CoV-2, its pathogenesis, and the potential for drug repurposing and immune therapies.

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Screening of potential inhibitors of COVID-19 with repurposing approach via molecular docking

Alizadehmohajer

Behmardi

Najafgholian

et al. 2022

Netw Model Anal Health Inform Bioinforma

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is the causative organism for a pandemic disease with a high rate of infectivity and mortality. In this study, we aimed to assess the affinity between several available small molecule and proteins, including Abl kinase inhibitors, Janus kinase inhibitor, dipeptidyl peptidase 4 inhibitors, RNA-dependent RNA polymerase inhibitors, and Papainlike protease inhibitors, using binding simulation, to test whether they may be effective in inhibiting COVID-19 infection through several mechanisms. The efficiency of inhibitors was evaluated based on docking scores using AutoDock Vina software. Strong ligand-protein interactions were predicted among some of these drugs, that included: Imatinib, Remdesivir, and Telaprevir, and this may render these compounds promising candidates. Some candidate drugs might be efficient in disease control as potential inhibitors or lead compounds against the SARS-CoV-2. It is also worth highlighting the powerful immunomodulatory role of other drugs, such as Abivertinib that inhibits pro-inflammatory cytokine production associated with cytokine release syndrome (CRS) and the progression of COVID-19 infection. The potential role of other Abl kinase inhibitors, including Imatinib in reducing SARS-CoV and MERS-CoV viral titers, immune regulatory function and the development of acute respiratory distress syndrome (ARDS), indicate that this drug may be useful for COVID-19, as the SARS-CoV-2 genome is similar to SARS-CoV.

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Screening of Potential Inhibitors of Covid-19 with Repurposing Approach Via Molecular Docking

Alizadehmohajer

Sadeghi

Najafgholian

et al. 2020

Preprint

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Background: 2019-nCoV (COVID-19) is a pandemic disease with a high infectivity and mortality. The prevention and treatment of COVID-19 have become urgent matters for consideration. It often takes several years to develop new drugs, or vaccines, based on the usual clinical trial process. This dwell-time can be shortened by repurposing previously approved drugs.Methods: We have designed and evaluated a bacterial biosensor expressing a luciferase We aimed to assess several available small-molecule; Abl kinase inhibitors, Janus kinase inhibitor, Dipeptidyl peptidase 4 inhibitors, RNA-dependent RNA polymerase inhibitors, and Papin-like Protease inhibitors, using binding simulation with proteins that might prove to be effective in inhibiting COVID-19 infection. The efficiency of inhibitors was evaluated based on docking scores using auto dock vina software.Results: Strong ligand-protein interactions were predicted among some of these drugs, such as Imatinib, Remdesivir, and Telaprevir, and this may render these compounds promising candidates. Some candidate drugs might be efficient in disease control (directly and indirectly) or in viral proteins attenuation. It is worth to highlight the powerful immunomodulatory role of Abivertinib that inhibits pro-inflammatory cytokine production that are associated with cytokine release syndrome (CRS) or cytokine storm and progression of COVID-19 infection.Conclusions: COVID-19 is similar to SARS-CoV, the potential role of Abl kinase inhibitors such as Imatinib in reducing SARS-CoV and MERS-CoV viral titers, immune regulatory function and the development of acute respiratory distress syndrome (ARDS) may indicate that these drugs may be useful for COVID-19. Moreover, Remdesivir, and Telaprevir have the most efficiency with their docked proteins in-silico as well although clinical trials are needed to confirm the effect of these drugs.

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