Exposure to uppercott induces hepatotoxicity in  male albino wistar rats

Background: From the fruits and seeds of the species of Pterodon, it is possible to obtain two main products: the essential oil and oleoresin. In oleoresin, numerous vouacapan compounds have been demonstrated to have biological potential, including insecticidal activity. Objective: In silico studies were performed to identify potential candidates for natural insecticides among the vouacapans present in the genus Pterodon. Materials and Methods: Molecular docking and molecular dynamics studies were performed to analyze the interaction of vouacapan compounds with acetylcholinesterase of Drosophila melanogaster. Pharmacokinetic parameters regarding physicochemical properties, plasma protein binding, and activity in the central nervous system were evaluated. The toxicological properties of the selected molecules were predicted using Malathion as the reference compound. Results: 6α,7β-dimethoxivouacapan-17-ene (15) showed a high number of interactions and scores in molecular docking studies. This result suggests that this compound exhibits an inhibitory activity of the enzyme acetylcholinesterase. Regarding physicochemical properties, this compound showed the best results, besides presenting low cutaneous permeability values, suggesting null absorption. Molecular dynamics studies demonstrated few conformational changes in the structure of the complex formed by compound 4 and acetylcholinesterase enzyme throughout the simulation time. Conclusion: It was determined that compound 4 (vouacapan 6α,7β,17β,19-tetraol) is an excellent candidate for usage as a natural insecticide.

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Potential Implications of Vouacapan Compounds for Insecticidal Activity: An In Silico Study

Ortiz-Zamora

Ferreira

Oliveira

et al. 2022

BIOT

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Exposure to uppercott induces hepatotoxicity in male albino wistar rats

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Potential Implications of Vouacapan Compounds for Insecticidal Activity: An In Silico Study

Potential Implications of Vouacapan Compounds for Insecticidal Activity: An In Silico Study

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