Deciphering Key Interactions of Ligands with CYP3A4-Template* system.

Food safety (Tokyo, Japan) Pub Date : 2021-02-10 eCollection Date: 2021-03-01 DOI:10.14252/foodsafetyfscj.D-20-00023
Yasushi Yamazoe, Takashi Yamada, Akihiko Hirose, Norie Murayama
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引用次数: 6

Abstract

Cytochrome P450 (CYP)-mediated metabolisms are often associated with biological and toxicological events of chemicals. A major hepatic enzyme, CYP3A4, showed clear distinctions on their catalyses even among ligands having resemble structures. To better understand mechanisms of their distinct catalyses, possible associations of ligand interactions at specific parts of CYP3A4 residues were investigated using CYP3A4-Template system developed (DMPK 2019 and 2020). A placement was available selectively for CYP3A4-mediated R-thalidomide 5-oxidation on Template, but not for the 5'-oxidation and the S-isomer oxidations. Similar placements were generated for pomalidomide (4-amino-thalidomide), but not for a poor ligand, lenalidomide (3-deoxy-pomalidomide). The latter ligand took placements lacking IJK-Interaction or sticking the 4-amino part beyond the facial-side wall on Template. A placement was available for the tert-butyl oxidation of terfenadine, but not for an analog, ebastine. Their interactions with upper-Cavity-2 residue were expected to differ at their sites of oxygen substituents. Some phenolic antioxidants behave distinctly toward biological oxidations in vitro and in vivo. Butylated hydroxytoluene is oxidized to the peroxy-derivative in vitro, but solely to the oxidized metabolites at the benzyl and tert-butyl methyl positions in vivo. Involvement of CYP3A4 were suggested for all the three reactions from the placements on Template. Tocopherols were also applied on Template for the oxidations for chroman and side-chain terminals. The primary placement was suggested to undergo the futile-recycling through formation of the peroxide intermediate subsequently to lead the substantial lack of the CYP3A4-mediated oxidation. These data suggest the effectiveness of CYP3A4-Template assessment to understand the causal basis of poor oxidations and also to verify the in vivo contribution of CYP3A4-mediated peroxidative reactions.

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破解配体与CYP3A4-Template*系统的关键相互作用。
细胞色素P450 (CYP)介导的代谢通常与化学物质的生物学和毒理学事件有关。一种主要的肝酶CYP3A4,即使在结构相似的配体之间,其催化作用也表现出明显的差异。为了更好地理解它们独特的催化机制,使用开发的CYP3A4- template系统(DMPK 2019和2020)研究了CYP3A4残基特定部位的配体相互作用的可能关联。cyp3a4介导的r -沙利度胺在模板上的5-氧化可选择性放置,但5'-氧化和s -异构体氧化不可选择性放置。泊马度胺(4-氨基-沙利度胺)也产生了类似的位置,但对一个差配体来那度胺(3-脱氧-泊马度胺)却没有。后一种配体的位置缺乏ijk相互作用或将4-氨基部分粘在模板的面侧壁之外。特非那定的叔丁基氧化有一个位置,但类似物依巴斯丁没有。预计它们与上腔2残基的相互作用在氧取代基的位置上是不同的。一些酚类抗氧化剂在体内和体外对生物氧化有明显的反应。丁基羟基甲苯在体外被氧化为过氧衍生物,但在体内仅被氧化为苄基和叔丁基甲基位置的代谢产物。CYP3A4被认为参与了模板上放置的所有三种反应。生育酚也被应用于模板上,用于氧化染色质和侧链末端。最初的放置被建议通过形成过氧化物中间体进行无用的再循环,从而导致cyp3a4介导的氧化的实质性缺乏。这些数据表明,CYP3A4-Template评估对于了解氧化不良的因果基础以及验证cyp3a4介导的过氧化反应在体内的作用是有效的。
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