Molecular Docking and ADME-TOX Profiling of Moringa oleifera Constituents against SARS-CoV-2

The SARS-CoV-2 (severe acute respiratory syndrome coronavirus 2019) etiological agent, which has a high contagiousness and is to blame for the outbreak of acute viral pneumonia, is the cause of the respiratory disease COVID-19. The use of natural products grew as an alternative treatment for various...

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Veröffentlicht in:Advances in respiratory medicine 2023-12, Vol.91 (6), p.464-485
Hauptverfasser: Souza, Hellen Cris Araújo, Souza, Maycon Douglas Araújo, Sousa, Cássio Silva, Viana, Edilanne Katrine Amparo, Alves, Sabrina Kelly Silva, Marques, Alex Oliveira, Ribeiro, Arthur Serejo Neves, de Sousa do Vale, Vanessa, Islam, Muhammad Torequl, de Miranda, João Antônio Leal, da Costa Mota, Marcelo, Rocha, Jefferson Almeida
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Sprache:eng
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Zusammenfassung:The SARS-CoV-2 (severe acute respiratory syndrome coronavirus 2019) etiological agent, which has a high contagiousness and is to blame for the outbreak of acute viral pneumonia, is the cause of the respiratory disease COVID-19. The use of natural products grew as an alternative treatment for various diseases due to the abundance of organic molecules with pharmacological properties. Many pharmaceutical studies have focused on investigating compounds with therapeutic potential. Therefore, this study aimed to identify potential antiviral compounds from a popular medicinal plant called Moringa oleifera Lam. against the spike, Mpro, ACE2, and RBD targets of SARS-CoV-2. For this, we use molecular docking to identify the molecules with the greatest affinity for the targets through the orientation of the ligand with the receptor in complex. For the best results, ADME-TOX predictions were performed to evaluate the pharmacokinetic properties of the compounds using the online tool pkCSM. The results demonstrate that among the 61 molecules of M. oleifera, 22 molecules showed promising inhibition results, where the compound ellagic acid showed significant molecular affinity (−9.3 kcal.mol−1) in interaction with the spike protein. These results highlight the relevance of investigating natural compounds from M. oleifera as potential antivirals against SARS-CoV-2; however, additional studies are needed to confirm the antiviral activity of the compounds.
ISSN:2543-6031
2543-6031
DOI:10.3390/arm91060035