新型唑类衍生物的抗菌作用及其通过分子模拟研究的抗真菌活性机制。

New azole derivatives showing antimicrobial effects and their mechanism of antifungal activity by molecular modeling studies.

机构信息

Department of Pharmaceutical Chemistry, Hacettepe University, Faculty of Pharmacy, 06100, Ankara, Turkey.

出版信息

Eur J Med Chem. 2017 Apr 21;130:124-138. doi: 10.1016/j.ejmech.2017.02.035. Epub 2017 Feb 17.

DOI:10.1016/j.ejmech.2017.02.035

Abstract

Azole antifungals are potent inhibitors of fungal lanosterol 14α demethylase (CYP51) and have been used for eradication of systemic candidiasis clinically. Herein we report the design, synthesis, and biological evaluation of a series of 1-phenyl/1-(4-chlorophenyl)-2-(1H-imidazol-1-yl)ethanol esters. Many of these derivatives showed fungal growth inhibition at very low concentrations. Minimal inhibition concentration (MIC) value of 15 was 0.125 μg/mL against Candida albicans. Additionally, some of our compounds, such as 19 (MIC: 0.25 μg/mL), were potent against resistant C. glabrata, a fungal strain less susceptible to some first-line antifungal drugs. We confirmed their antifungal efficacy by antibiofilm test and their safety against human monocytes by cytotoxicity assay. To rationalize their mechanism of action, we performed computational analysis utilizing molecular docking and dynamics simulations on the C. albicans and C. glabrata CYP51 (CACYP51 and CGCYP51) homology models we built. Leu130 and T131 emerged as possible key residues for inhibition of CGCYP51 by 19.

摘要

唑类抗真菌药物是真菌羊毛甾醇 14α 脱甲基酶（CYP51）的有效抑制剂，已在临床上用于根除系统性念珠菌病。本文报道了一系列 1-苯基/1-(4-氯苯基)-2-(1H-咪唑-1-基)乙醇酯的设计、合成和生物学评价。这些衍生物中的许多在非常低的浓度下就显示出抑制真菌生长的作用。对白色念珠菌的最小抑制浓度（MIC）值为 15，为 0.125μg/mL。此外，我们的一些化合物，如 19（MIC：0.25μg/mL），对耐药性光滑念珠菌也有很强的作用，光滑念珠菌对一些一线抗真菌药物的敏感性较低。我们通过抗生物膜试验证实了它们的抗真菌功效，并通过细胞毒性试验证实了它们对人单核细胞的安全性。为了合理推断它们的作用机制，我们利用我们构建的白色念珠菌和光滑念珠菌 CYP51（CACYP51 和 CGCYP51）同源模型进行了分子对接和动力学模拟的计算分析。亮氨酸 130 和苏氨酸 131 可能是 19 抑制 CGCYP51 的关键残基。

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新型唑类衍生物的抗菌作用及其通过分子模拟研究的抗真菌活性机制。

New azole derivatives showing antimicrobial effects and their mechanism of antifungal activity by molecular modeling studies.

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