Study of Genotoxicity, Activities on Caspase 8 and on the Stabilization of the Topoisomerase Complex of Isoeleutherin and Analogues

This study evaluated the genotoxicity of Ethanol Extract (EEEp), Dichloromethane Fraction (FDCMEp) and isoeleutherin isolated from <i>Eleutherine plicata</i>, using the micronucleus test and the impact of structural alterations on toxicity and molecular docking (topoisomerase II and DNA...

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Main Authors: Kelly Cristina Oliveira de Albuquerque, Natasha Costa da Rocha Galucio, Gleison Gonçalves Ferreira, Ana Carolina Sousa Quaresma, Valdicley Vieira Vale, Marcelo de Oliveira Bahia, Rommel Mario Rodriguez Burbano, Fábio Alberto de Molfetta, Sandro Percario, Maria Fâni Dolabela
Format: Article
Language:English
Published: MDPI AG 2023-02-01
Series:Molecules
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Online Access:https://www.mdpi.com/1420-3049/28/4/1630
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Summary:This study evaluated the genotoxicity of Ethanol Extract (EEEp), Dichloromethane Fraction (FDCMEp) and isoeleutherin isolated from <i>Eleutherine plicata</i>, using the micronucleus test and the impact of structural alterations on toxicity and molecular docking (topoisomerase II and DNA complex). The extract was obtained by maceration and fractionation in a chromatography column. The genotoxicity was evaluated by the micronucleus test in human hepatoma cells (HepG2). Isoeleutherin was the starting molecule in the search for analogues by structural similarity, using the ZINC and e-Molecules databases. Isoeleutherin and analogues were subjected to in silico toxicity prediction, and compounds free of toxicological risks (CP13, CP14, CP17 and isoeleutherin) were selected for molecular docking in Topoisomerase II (PDB: 1ZXM). In the micronucleus test, isoeleutherin was less genotoxic. Among the 22 isoeleutherin analogues there were variations in the toxicity profile. Molecular docking studies showed that the compounds have good complementarity in the active site with important hydrogens bonds. Therefore, the structural changes of isoeleutherin led to the obtaining of a molecule with a lower mutagenic potential, and the CP13 can be considered a prototype compound for the development of new molecules with pharmacological potential.
ISSN:1420-3049