In Vitro Metabolism and p53 Activation of Genotoxic Chemicals: Abiotic CYP Enzyme vs Liver Microsomes.

IF 3.7 3区 医学 Q2 CHEMISTRY, MEDICINAL Chemical Research in Toxicology Pub Date : 2024-08-19 Epub Date: 2024-06-20 DOI:10.1021/acs.chemrestox.4c00101
Luise Henneberger, Julia Huchthausen, Jenny Braasch, Maria König, Beate I Escher
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Abstract

Chemicals often require metabolic activation to become genotoxic. Established test guidelines recommend the use of the rat liver S9 fraction or microsomes to introduce metabolic competence to in vitro cell-based bioassays, but the use of animal-derived components in cell culture raises ethical concerns and may lead to quality issues and reproducibility problems. The aim of the present study was to compare the metabolic activation of cyclophosphamide (CPA) and benzo[a]pyrene (BaP) by induced rat liver microsomes and an abiotic cytochrome P450 (CYP) enzyme based on a biomimetic porphyrine catalyst. For the detection of genotoxic effects, the chemicals were tested in a reporter gene assay targeting the activation of the cellular tumor protein p53. Both chemicals were metabolized by the abiotic CYP enzyme and the microsomes. CPA showed no activation of p53 and low cytotoxicity without metabolic activation, but strong activation of p53 and increased cytotoxicity upon incubation with liver microsomes or abiotic CYP enzyme. The effect concentration causing a 1.5-fold induction of p53 activation was very similar with both metabolization systems (within a factor of 1.5), indicating that genotoxic metabolites were formed at comparable concentrations. BaP also showed low cytotoxicity and no p53 activation without metabolic activation. The activation of p53 was detected for BaP upon incubation with active and inactive microsomes at similar concentrations, indicating experimental artifacts caused by the microsomes or NADPH. The activation of BaP with the abiotic CYP enzyme increased the cytotoxicity of BaP by a factor of 8, but no activation of p53 was detected. The results indicate that abiotic CYP enzymes may present an alternative to rat liver S9 fraction or microsomes for the metabolic activation of test chemicals, which are completely free of animal-derived components. However, an amendment of existing test guidelines would require testing of more chemicals and genotoxicity end points.

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遗传毒性化学品的体外代谢和 p53 激活:非生物 CYP 酶与肝脏微粒体。
化学品通常需要经过新陈代谢活化才能产生遗传毒性。既定的测试指南建议使用大鼠肝脏 S9 部分或微粒体为体外细胞生物测定引入代谢能力,但在细胞培养中使用动物源成分会引发伦理问题,并可能导致质量问题和可重复性问题。本研究的目的是比较诱导大鼠肝脏微粒体和基于生物模拟卟啉催化剂的非生物细胞色素 P450(CYP)酶对环磷酰胺(CPA)和苯并[a]芘(BaP)的代谢活化。为了检测基因毒性效应,这些化学物质在以激活细胞肿瘤蛋白 p53 为目标的报告基因检测中进行了测试。这两种化学物质都被非生物 CYP 酶和微粒体代谢。在没有新陈代谢活化的情况下,CPA 对 p53 没有活化作用,细胞毒性较低,但在与肝脏微粒体或非生物 CYP 酶一起培养时,p53 被强烈活化,细胞毒性增加。在两种代谢系统中,诱导 p53 活化 1.5 倍的效应浓度非常相似(在 1.5 倍以内),这表明在浓度相当的情况下会形成具有遗传毒性的代谢物。BaP 也显示出较低的细胞毒性,并且在没有代谢活化的情况下不会激活 p53。在与活性和非活性微粒体以相似的浓度进行孵育时,检测到了 BaP 对 p53 的活化,这表明微粒体或 NADPH 造成了实验误差。用非生物 CYP 酶激活 BaP 后,BaP 的细胞毒性增加了 8 倍,但没有检测到 p53 被激活。结果表明,非生物 CYP 酶可替代大鼠肝脏 S9 部分或微粒体,用于测试化学品的代谢活化,因为它们完全不含动物源成分。不过,要修订现有的测试指南,需要对更多的化学品和遗传毒性终点进行测试。
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来源期刊
CiteScore
7.90
自引率
7.30%
发文量
215
审稿时长
3.5 months
期刊介绍: Chemical Research in Toxicology publishes Articles, Rapid Reports, Chemical Profiles, Reviews, Perspectives, Letters to the Editor, and ToxWatch on a wide range of topics in Toxicology that inform a chemical and molecular understanding and capacity to predict biological outcomes on the basis of structures and processes. The overarching goal of activities reported in the Journal are to provide knowledge and innovative approaches needed to promote intelligent solutions for human safety and ecosystem preservation. The journal emphasizes insight concerning mechanisms of toxicity over phenomenological observations. It upholds rigorous chemical, physical and mathematical standards for characterization and application of modern techniques.
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