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URI permanente para esta coleçãohttps://locus.ufv.br/handle/123456789/11800

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Autor: search.filters.author.Heller, LucieData inicial: 2010Data final: 2019Assunto: search.filters.subject.Hederagenin derivatives

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    Novel hederagenin–triazolyl derivatives as potential anti-cancer agents
    (European Journal of Medicinal Chemistry, 2016-06-10) Rodríguez-Hernández, Diego; Demuner, Antonio J.; Barbosa, Luiz C.A.; Heller, Lucie; Csuk, René
    A series of novel aryl-1H-1,2,3-triazol-4-yl methylester and amide derivatives of the natural product hederagenin was synthesized aiming to develop new antitumor agents, using Huisgen 1,3-dipolar cycloaddition reactions, with yields between 35% and 95%. The structures of all derivatives (2–31) were confirmed by MS, IR, ^1H NMR and ^13C NMR spectroscopic data. The cytotoxic activities of all compounds were screened against a panel of six human cancer cell lines using SRB assay. It was found that most of the compounds displayed higher levels of antitumor activities as compared to parent hederagenin. Compounds 4, 8 and 15 were the most potent against all human cancer cell lines. Furthermore, compound 11 was the most cytotoxic against cell HT29 showing EC50 = 1.6 μM and a selectivity index of 5.4.
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    Hederagenin as a triterpene template for the development of new antitumor compounds
    (European Journal of Medicinal Chemistry, 2015-11-13) Rodríguez-Hernández, Diego; Demuner, Antonio J.; Barbosa, Luiz C.A.; Csuk, René; Heller, Lucie
    In this study, a series of novel C-28 esters and amides derivatives of hederagenin (He) were designed and synthesized in attempt to develop potent antitumor agents. Their structures were confirmed by MS, IR, 1H NMR and ^13C NMR spectroscopic analyses and their cytotoxic activities were screened in SRB assays using a panel of six human cancer cell lines. Although most of the compounds displayed moderate to high levels of cytotoxic activity they were all more potent than the natural product He. The most active compounds had either an ethylpyrimidinyl (27) or an ethylpyrrolidinyl (28) substituent, with EC50 in the range of 1.1–6.5 μM for six human cancer cell lines. Notably, this corresponds to an approximately 30-fold times greater potency than He.