Programa de Pós-Graduação em Química, Departamento de Química, Universidade Federal do Espírito Santo, Vitória-ES 29075-910, Brazil.
Programa de Pós-graduação em Produtos Naturais e Sintéticos Bioativos (PgPNSB), Universidade Federal da Paraíba, Campus I, Cidade Universitária, João Pessoa 58051-900, Brazil.
Phytomedicine. 2024 Jun;128:155414. doi: 10.1016/j.phymed.2024.155414. Epub 2024 Feb 5.
Chagas disease and leishmaniasis affect a significant portion of the Latin American population and still lack efficient treatments. In this context, natural products emerge as promising compounds for developing more effective therapies, aiming to mitigate side effects and drug resistance. Notably, species from the Amaryllidaceae family emerge as potential reservoirs of antiparasitic agents due to the presence of diverse biologically active alkaloids.
To assess the anti-Trypanosoma cruzi and anti-Leishmania infantum activity of five isolated alkaloids from Hippeastrum aulicum Herb. (Amaryllidaceae) against different life stages of the parasites using in silico and in vitro assays. Furthermore, molecular docking was employed to evaluate the interaction of the most active alkaloids.
Five natural isoquinoline alkaloids isolated in suitable quantities for in vitro testing underwent preliminary in silico analysis to predict their potential efficacy against Trypanosoma cruzi (amastigote and trypomastigote forms) and Leishmania infantum (amastigote and promastigote forms). The in vitro antiparasitic activity and mammalian cytotoxicity were investigated with a subsequent comparison of both analysis (in silico and in vitro) findings. Additionally, this study employed the molecular docking technique, utilizing cruzain (T. cruzi) and sterol 14α-demethylase (CYP51, L. infantum) as crucial biological targets for parasite survival, specifically focusing on compounds that exhibited promising activities against both parasites.
Through computational techniques, it was identified that the alkaloids haemanthamine (1) and lycorine (8) were the most active against T. cruzi (amastigote and trypomastigote) and L. infantum (amastigote and promastigote), while also revealing unprecedented activity of alkaloid 7‑methoxy-O-methyllycorenine (6). The in vitro analysis confirmed the in silico tests, in which compound 1 presented the best activities against the promastigote and amastigote forms of L. infantum with half-maximal inhibitory concentration (IC) 0.6 µM and 1.78 µM, respectively. Compound 8 exhibited significant activity against the amastigote form of T. cruzi (IC 7.70 µM), and compound 6 demonstrated activity against the trypomastigote forms of T. cruzi and amastigote of L. infantum, with IC values of 89.55 and 86.12 µM, respectively. Molecular docking analyses indicated that alkaloids 1 and 8 exhibited superior interaction energies compared to the inhibitors.
The hitherto unreported potential of compound 6 against T. cruzi trypomastigotes and L. infantum amastigotes is now brought to the forefront. Furthermore, the acquired dataset signifies that the isolated alkaloids 1 and 8 from H. aulicum might serve as prototypes for subsequent structural refinements aimed at the exploration of novel leads against both T. cruzi and L. infantum parasites.
恰加斯病和利什曼病影响了拉丁美洲的很大一部分人口,目前仍然缺乏有效的治疗方法。在这种情况下,天然产物作为开发更有效疗法的有前途的化合物出现,旨在减轻副作用和耐药性。值得注意的是,由于存在多种具有生物活性的生物碱,石蒜科植物被认为是潜在的抗寄生虫药物来源。
使用体内和体外检测方法,评估从 Hippeastrum aulicum Herb.(石蒜科)中分离得到的五种生物碱对寄生虫不同生活阶段的抗 Trypanosoma cruzi 和抗 Leishmania infantum 的活性。此外,还进行了分子对接以评估最活跃的生物碱的相互作用。
对五种天然异喹啉生物碱进行了初步的计算机模拟分析,以预测它们对 Trypanosoma cruzi(无鞭毛体和鞭毛体形式)和 Leishmania infantum(无鞭毛体和前鞭毛体形式)的潜在疗效。通过随后比较体内和体外分析(计算机模拟和体外)的结果,研究了抗寄生虫活性和哺乳动物细胞毒性。此外,本研究还利用 cruzain(T. cruzi)和甾醇 14α-去甲基酶(CYP51,L. infantum)作为寄生虫生存的关键生物靶点,使用分子对接技术,专门研究对两种寄生虫均表现出良好活性的化合物。
通过计算技术,确定了血根碱(1)和石蒜碱(8)对 T. cruzi(无鞭毛体和鞭毛体)和 L. infantum(无鞭毛体和前鞭毛体)最有效,同时还揭示了 7-甲氧基-O-甲基石蒜碱(6)具有前所未有的活性。体外分析证实了计算机模拟测试,其中化合物 1 对 L. infantum 的前鞭毛体和无鞭毛体形式表现出最佳活性,半最大抑制浓度(IC)为 0.6 µM 和 1.78 µM。化合物 8 对 T. cruzi 的无鞭毛体形式表现出显著的活性(IC 7.70 µM),化合物 6 对 T. cruzi 的鞭毛体形式和 L. infantum 的无鞭毛体形式具有活性,IC 值分别为 89.55 和 86.12 µM。分子对接分析表明,与抑制剂相比,生物碱 1 和 8 表现出更高的相互作用能。
目前首次报道了化合物 6 对 T. cruzi 鞭毛体和 L. infantum 无鞭毛体的潜在活性。此外,所获得的数据集表明,H. aulicum 中分离得到的生物碱 1 和 8 可能作为原型,用于后续结构修饰,以探索针对 T. cruzi 和 L. infantum 寄生虫的新型先导化合物。
