| Literature DB >> 29693318 |
Taciane Maíra Magalhães Hipólito1, Guilherme Tadeu Lemos Bastos1, Thúlio Wliandon Lemos Barbosa1, Thiago Belarmino de Souza2, Luiz Felipe Leomil Coelho3, Amanda Latércia Tranches Dias3, Ihosvany Camps Rodríguez4, Marcelo Henrique Dos Santos5, Danielle Ferreira Dias6, Lucas Lopardi Franco1, Diogo Teixeira Carvalho1.
Abstract
Seventeen new synthetic derivatives of eugenol (6, 8-15 and 8'-15') were planned following literature reports on antifungal activities of nitroeugenol and eugenol glucoside. The anti-Candida activity of these compounds was investigated by in vitro assay, and the cytotoxicity evaluation was performed with the most active compounds. The peracetylated glucosides presented better biological results than their hydroxylated analogues. The glucoside 11, a 4-nitrobenzamide, showed the best potency (MIC50 range 11.0-151.84 μm), the wider spectrum of action, and overall the best selectivity indexes, especially against C. tropicalis (~30) and C. krusei (~15). To investigate its possible mechanism of action, glucoside 11 was subjected to molecular docking studies with Candida sp. enzymes involved in ergosterol biosynthesis. Results have shown that the peracetyl glucosyl moiety and the 4-nitrobenzamide group in 11 are effectively involved in its high affinity with the active site of squalene epoxidase.Entities:
Keywords: Candida spp.; antifungals; eugenol; glucosides; molecular docking
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Year: 2018 PMID: 29693318 DOI: 10.1111/cbdd.13318
Source DB: PubMed Journal: Chem Biol Drug Des ISSN: 1747-0277 Impact factor: 2.817