New insights into aflatoxin B1 mechanistic toxicology in cattle liver: an integrated approach using molecular docking and biological evaluation in CYP1A1 and CYP3A74 knockout BFH12 cell lines

IF 4.8 2区 医学 Q1 TOXICOLOGY
Silvia Iori, Maija Lahtela-Kakkonen, Caterina D’Onofrio, Federica Maietti, Greta Mucignat, Anisa Bardhi, Andrea Barbarossa, Anna Zaghini, Marianna Pauletto, Mauro Dacasto, Mery Giantin
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Abstract

Aflatoxin B1 (AFB1) is a pro-carcinogenic compound bioactivated in the liver by cytochromes P450 (CYPs). In mammals, CYP1A and CYP3A are responsible for AFB1 metabolism, with the formation of the genotoxic carcinogens AFB1-8,9-epoxide and AFM1, and the detoxified metabolite AFQ1. Due to climate change, AFB1 cereals contamination arose in Europe. Thus, cattle, as other farm animals fed with grains (pig, sheep and broiler), are more likely exposed to AFB1 via feed with consequent release of AFM1 in milk, posing a great concern to human health. However, knowledge about bovine CYPs involved in AFB1 metabolism is still scanty. Therefore, CYP1A1- and CYP3A74-mediated molecular mechanisms of AFB1 hepatotoxicity were here dissected. Molecular docking of AFB1 into CYP1A1 model suggested AFB1 8,9-endo- and 8,9-exo-epoxide, and AFM1 formation, while docking of AFB1 into CYP3A74 pointed to AFB1 8,9-exo-epoxide and AFQ1 synthesis. To biologically confirm these predictions, CYP1A1 and CYP3A74 knockout (KO) BFH12 cell lines were exposed to AFB1. LC–MS/MS investigations showed the abolished production of AFM1 in CYP1A1 KO cells and the strong increase of parent AFB1 in CYP3A74 KO cells; the latter result, coupled to a decreased cytotoxicity, suggested the major role of CYP3A74 in AFB1 8,9-exo-epoxide formation. Finally, RNA-sequencing analysis indirectly proved lower AFB1-induced cytotoxic effects in engineered cells versus naïve ones. Overall, this study broadens the knowledge on AFB1 metabolism and hepatotoxicity in cattle, and it provides the weight of evidence that CYP1A1 and CYP3A74 inhibition might be exploited to reduce AFM1 and AFBO synthesis, AFB1 toxicity, and AFM1 milk excretion.

Abstract Image

黄曲霉毒素 B1 在牛肝脏中的机理毒理学新见解:在 CYP1A1 和 CYP3A74 基因敲除 BFH12 细胞系中使用分子对接和生物评估的综合方法。
黄曲霉毒素 B1(AFB1)是一种促癌化合物,在肝脏中通过细胞色素 P450(CYPs)进行生物活化。在哺乳动物体内,CYP1A 和 CYP3A 负责 AFB1 的代谢,形成基因毒性致癌物 AFB1-8,9-环氧化物和 AFM1,以及解毒代谢物 AFQ1。由于气候变化,欧洲出现了 AFB1 谷物污染。因此,与其他以谷物为食的农场动物(猪、羊和肉鸡)一样,牛更有可能通过饲料接触到 AFB1,从而在牛奶中释放出 AFM1,这对人类健康构成了极大的威胁。然而,有关牛体内参与 AFB1 代谢的 CYPs 的知识仍然很少。因此,本文对 CYP1A1 和 CYP3A74 介导的 AFB1 肝毒性分子机制进行了剖析。AFB1 与 CYP1A1 模型的分子对接表明 AFB1 8,9-endo- 和 8,9-exo-epoxide 以及 AFM1 的形成,而 AFB1 与 CYP3A74 的对接则表明 AFB1 8,9-exo-epoxide 和 AFQ1 的合成。为了从生物学角度证实这些预测,将 CYP1A1 和 CYP3A74 基因敲除(KO)的 BFH12 细胞系暴露于 AFB1。LC-MS/MS 研究表明,在 CYP1A1 KO 细胞中,AFM1 的生成被取消,而在 CYP3A74 KO 细胞中,母体 AFB1 的生成则大幅增加;后一结果加上细胞毒性的降低,表明 CYP3A74 在 AFB1 8,9-exo-epoxide 的形成中发挥了主要作用。最后,RNA 序列分析间接证明了工程细胞与天真细胞相比,AFB1 诱导的细胞毒性效应更低。总之,这项研究拓宽了人们对牛体内 AFB1 代谢和肝毒性的认识,并提供了大量证据,证明可以利用 CYP1A1 和 CYP3A74 抑制剂来减少 AFM1 和 AFBO 的合成、AFB1 的毒性和 AFM1 牛奶的排泄。
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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来源期刊
Archives of Toxicology
Archives of Toxicology 医学-毒理学
CiteScore
11.60
自引率
4.90%
发文量
218
审稿时长
1.5 months
期刊介绍: Archives of Toxicology provides up-to-date information on the latest advances in toxicology. The journal places particular emphasis on studies relating to defined effects of chemicals and mechanisms of toxicity, including toxic activities at the molecular level, in humans and experimental animals. Coverage includes new insights into analysis and toxicokinetics and into forensic toxicology. Review articles of general interest to toxicologists are an additional important feature of the journal.
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