Combined Risk Assessment of Food-derived Coumarin with in Silico Approaches.

Food safety (Tokyo, Japan) Pub Date : 2022-09-23 eCollection Date: 2022-09-01 DOI:10.14252/foodsafetyfscj.D-21-00015
Takashi Yamada, Naruo Katsutani, Taeko Maruyama, Tomoko Kawamura, Hiroshi Yamazaki, Norie Murayama, Weida Tong, Yasushi Yamazoe, Akihiko Hirose
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Abstract

Hepatotoxicity associated with food-derived coumarin occurs occasionally in humans. We have, herein, assessed the data of existing clinical and nonclinical studies as well as those of in silico models for humans in order to shed more light on this association. The average intakes of food-derived coumarin are estimated to be 1-3 mg/day, while a ten-times higher level is expected in the worst-case scenarios. These levels are close to or above the tolerable daily intake suggested by a chronic study in dogs. The human internal exposure levels were estimated by a physiologically-based pharmacokinetic model with the use of virtual doses of coumarin in the amounts expected to derive from foods. Our results suggest that: (i) coumarin can be cleared rapidly via 7-hydroxylation in humans, and (ii) the plasma levels of coumarin and of its metabolite, o-hydroxyphenylacetic acid associated with hepatotoxicity, are considerably lower than those yielding hepatotoxicity in rats. Pharmacokinetic data suggest a low or negligible concern regarding a coumarin-induced hepatotoxicity in humans exposed to an average intake from foods. Detoxification of coumarin through the 7-hydroxylation, however, might vary among individuals due to genetic polymorphisms in CYP2A6 enzyme. In addition, the CYP1A2- and CYP2E1-mediated activation of coumarin can fluctuate as a result of induction caused by environmental factors. Furthermore, the daily consumption of food-contained coumarin was implicated in the potential risk of hepatotoxicity by the drug-induced liver injury score model developed by the US Food and Drug Administration. These results support the idea of the existence of human subpopulations that are highly sensitive to coumarin; therefore, a more precise risk assessment is needed. The present study also highlights the usefulness of in silico approaches of pharmacokinetics with the liver injury score model as battery components of a risk assessment.

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采用硅学方法对源自食物的香豆素进行综合风险评估。
人类偶尔会出现与食物中的香豆素有关的肝毒性。在此,我们评估了现有的临床和非临床研究数据,以及针对人类的硅模型数据,以进一步阐明这种关联。据估计,从食物中提取的香豆素的平均摄入量为每天 1-3 毫克,而在最坏的情况下,预计摄入量会高出十倍。这些水平接近或高于一项狗的慢性研究提出的每日可耐受摄入量。人体内部摄入量是通过基于生理学的药代动力学模型估算出来的,该模型使用的是香豆素的虚拟剂量,即预计从食物中摄入的量。我们的研究结果表明(i) 人体内的香豆素可通过 7- 羟基化迅速清除,(ii) 与肝毒性相关的香豆素及其代谢物邻羟基苯乙酸的血浆水平大大低于大鼠产生肝毒性的水平。药代动力学数据表明,人体从食物中摄入香豆素的平均水平较低,甚至可以忽略不计。不过,由于 CYP2A6 酶的基因多态性,通过 7- 羟基化作用对香豆素的解毒作用可能因人而异。此外,由于环境因素的诱导,CYP1A2- 和 CYP2E1 介导的香豆素活化也会发生波动。此外,美国食品和药物管理局开发的药物诱发肝损伤评分模型显示,每天食用含有香豆素的食物会导致潜在的肝毒性风险。这些结果支持了存在对香豆素高度敏感的人类亚群的观点;因此,需要进行更精确的风险评估。本研究还强调了药代动力学硅学方法和肝损伤评分模型作为风险评估电池组件的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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