CYP3A4 介导的唑类杀真菌剂代谢的预测和特征描述:融合网格模板*系统的应用。

Food safety (Tokyo, Japan) Pub Date : 2020-06-26 eCollection Date: 2020-06-01 DOI:10.14252/foodsafetyfscj.D-20-00010
Yasushi Yamazoe, Takashi Yamada, Kiyoshi Nagata
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引用次数: 0

摘要

人类 CYP3A4 参与多种疏水性化学物质的代谢。利用已知与 CYP3A4 有相互作用的治疗性唑类杀菌剂的数据,首先确认了 CYP3A4 模板系统的适用性,以忠实地重建模板上的相互作用。然后将 20 多种唑类杀虫剂应用于模板系统。除他拉唑外,所有应用的唑类立体异构体都通过三唑或咪唑部分的氮原子相互作用,并通过满足三要素相互作用而稳定地发挥抑制作用。在 CYP3A4 介导的氧化作用中,唑类杀虫剂的对映体和非对映体在模板上有明显的区别。因此,立体异构体在代谢过程中具有各自的区域和立体选择性。不过,利用 CYP3A4 模板系统获得的每种唑类的综合代谢图谱与所报道的大鼠体内代谢图谱相似。这些结果表明,CYP3A 形式对大多数唑类杀虫剂在大鼠和人体内的代谢都起着重要作用。游离三唑是唑类杀菌剂的代谢产物,在实验动物和人体中,三唑和其他主要结构之间有一个亚甲基间隔物。在模拟实验中发现,在模板上测试的所有唑类杀菌剂中,都存在三唑和主碳骨架之间的亚甲基间隔物氧化的位置。因此,我们讨论了这种导致三唑释放的反应的发生与 CYP3A 形式可能参与其中的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Prediction and Characterization of CYP3A4-mediated Metabolisms of Azole Fungicides: an Application of the Fused-grid Template* system.

Prediction and Characterization of CYP3A4-mediated Metabolisms of Azole Fungicides: an Application of the Fused-grid Template* system.

Prediction and Characterization of CYP3A4-mediated Metabolisms of Azole Fungicides: an Application of the Fused-grid Template* system.

Prediction and Characterization of CYP3A4-mediated Metabolisms of Azole Fungicides: an Application of the Fused-grid Template* system.

Human CYP3A4 is involved in metabolisms of diverse hydrophobic chemicals. Using the data of therapeutic azole fungicides known to interact with CYP3A4, applicability of CYP3A4 Template system was first confirmed to reconstitute faithfully the interaction on Template. More than twenty numbers of pesticide azoles were then applied to the Template system. All the azole stereo-isomers applied, except for talarozole, interacted through nitrogen atoms of triazole or imidazole parts and sat stably for inhibitions through fulfilling three-essential interactions. For their CYP3A4-mediated oxidations, clear distinctions were suggested among the enantiomers and diastereomers of azole pesticides on Templates. Thus, the stereoisomers would have their-own regio- and stereo-selective profiles of the metabolisms. A combined metabolic profile of each azole obtained with CYP3A4 Template system, however, resembled with the reported profile of the in vivo metabolism in rats. These results suggest the major roles of CYP3A forms on the metabolisms of most of azole pesticides in both rats and humans. Free triazole is a metabolite of azole fungicides having a methylene-spacer between triazole and the rest of the main structures in experimental animals and humans. During the simulation experiments, a placement for the oxidation of a methylene spacer between the triazole and main carbon-skeleton was found to be available throughout the azole fungicides tested on Template. The occurrence of this reaction to lead to triazole-release is thus discussed in relation to the possible involvement of CYP3A forms.

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