New miconazole-based azoles derived from eugenol show activity against Candida spp. and Cryptococcus gattii by inhibiting the fungal ergosterol biosynthesis.

dc.contributor.authorPéret, Vinícius Augusto Campos
dc.contributor.authorReis, Rúbia Castro Fernandes Melo
dc.contributor.authorBraga, Saulo Fehelberg Pinto
dc.contributor.authorBenedetti, Monique Dias
dc.contributor.authorCaldas, Ivo Santana
dc.contributor.authorCarvalho, Diogo Teixeira
dc.contributor.authorSantana, Luiz Felipe de Andrade
dc.contributor.authorJohann, Susana
dc.contributor.authorSouza, Thiago Belarmino de
dc.date.accessioned2023-10-18T17:28:31Z
dc.date.available2023-10-18T17:28:31Z
dc.date.issued2023pt_BR
dc.description.abstractThis work describes the design, synthesis and antifungal activity of new imidazoles and 1,2,4-triazoles derived from eugenol and dihydroeugenol. These new compounds were fully characterized by spectroscopy/spectro- metric analyses and the imidazoles 9, 10, 13 e 14 showed relevant antifungal activity against Candida sp. and Cryptococcus gattii in the range of 4.6–75.3 μM. Although no compound has shown a broad spectrum of antifungal activity against all evaluated strains, some azoles were more active than either reference drugs employed against specific strains. Eugenol-imidazole 13 was the most promising azole (MIC: 4.6 μM) against Candida albicans being 32 times more potent than miconazole (MIC: 150.2 μM) with no relevant cytotoxicity (selectivity index >28). Notably, dihydroeugenol-imidazole 14 was twice as potent (MIC: 36.4 μM) as miconazole (MIC: 74.9 μM) and more than 5 times more active than fluconazole (MIC: 209.0 μM) against alarming multi-resistant Candida auris. Furthermore, in vitro assays showed that most active compounds 10 and 13 altered the fungal ergosterol biosynthesis, reducing its content as fluconazole does, suggesting the enzyme lanosterol 14α-demethylase (CYP51) as a possible target for these new compounds. Docking studies with CYP51 revealed an interaction between the imidazole ring of the active substances with the heme group, as well as insertion of the chlorinated ring into a hydrophobic cavity at the binding site, consistent with the behavior observed with control drugs miconazole and fluconazole. The increase of azoles-resistant isolates of Candida species and the impact that C. auris has had on hospitals around the world reinforces the importance of discovery of azoles 9, 10, 13 e 14 as new bioactive compounds for further chemical optimization to afford new clinically antifungal agents.pt_BR
dc.identifier.citationPÉRET, V. A. C. et al. New miconazole-based azoles derived from eugenol show activity against Candida spp. and Cryptococcus gattii by inhibiting the fungal ergosterol biosynthesis. European Journal of Medicinal Chemistry, v. 256, artigo 115436, ago. 2023. Disponível em: <https://www.sciencedirect.com/science/article/pii/S0223523423004026>. Acesso em: 01 ago. 2023.pt_BR
dc.identifier.doihttps://doi.org/10.1016/j.ejmech.2023.115436pt_BR
dc.identifier.issn0223-5234
dc.identifier.urihttp://www.repositorio.ufop.br/jspui/handle/123456789/17597
dc.identifier.uri2https://www.sciencedirect.com/science/article/pii/S0223523423004026pt_BR
dc.language.isoen_USpt_BR
dc.rightsrestritopt_BR
dc.subjectNew azolespt_BR
dc.subjectCandida aurispt_BR
dc.titleNew miconazole-based azoles derived from eugenol show activity against Candida spp. and Cryptococcus gattii by inhibiting the fungal ergosterol biosynthesis.pt_BR
dc.typeArtigo publicado em periodicopt_BR

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