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New insights into the regulation of cyp3a65 expression in transgenic tg(cyp3a65:GFP) zebrafish embryos

IF 4.1 2区环境科学与生态学 Q1 MARINE & FRESHWATER BIOLOGY

Aquatic Toxicology Pub Date : 2025-02-01 DOI:10.1016/j.aquatox.2025.107250

Chedi Erradhouani , Benjamin Piccini , Emmanuelle Maillot-Marechal , Selim Aït-Aïssa , Patrick Balaguer , Xavier Coumoul , François Brion

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引用次数: 0

Abstract

Facing the need for alternative models allowing assessment of metabolic-endocrine disrupting chemicals (MDCs), especially in poorly investigated tissues such as the intestine, we recently developed a transgenic zebrafish embryo in vivo model, tg(cyp3a65:GFP), expressing the Green Fluorescent Protein (GFP) under the control of the zebrafish cyp3a65 promoter, ortholog of human cyp3a4, a gene coding for a key enzyme of intestinal xenobiotic and endobiotic metabolism. In this study, we aimed to better understand the regulation of cyp3a65 expression by zfPXR, zfAhR2, and zfGR zebrafish orthologs of well-known human xenosensors PXR and AhR, and steroid nuclear receptor GR. For this purpose, we performed zebrafish embryo tg(cyp3a65:GFP) (co)exposures to a variety of agonists (clotrimazole, TCDD, fluticasone propionate) and antagonists (econazole nitrate, CH223181, RU486), which were characterized using in vitro zebrafish reporter gene assays. We show that zfPXR and zfAhR2 cooperate to positively regulate cyp3a65 expression, involving different transcription factors and their interaction. Moreover, for the first time, we show that zfGR agonist strongly inhibits the constitutive expression of cyp3a65, and we hypothesized the possible involvement of the transcriptional factor zfHNF4α. These results provide a better understanding of the regulation of zebrafish cyp3a65 expression, highlighting the complex interaction between different transcription factors, which is consistent with the multiple regulatory pathways of cyp3a4 in humans. Our data support the idea that this gene is a target of multiple contaminants capable of interacting with zfPXR, zfAhR2 and zfGR and highlights the relevance of the tg(cyp3a65:GFP) model to screen chemicals potentially acting as MDCs based on their modes of action at the intestinal level, which could be relevant for hazard assessment of chemicals for human and environmental health.

查看原文本刊更多论文

cyp3a65在转基因tg（cyp3a65:GFP）斑马鱼胚胎中表达调控的新见解

面对对代谢-内分泌干扰化学物质（MDCs）评估的替代模型的需求，特别是在研究较少的组织（如肠）中，我们最近开发了一种转基因斑马鱼胚胎体内模型tg(cyp3a65:GFP)，在斑马鱼cyp3a65启动子的控制下表达绿色荧光蛋白（GFP），该启动子与人类cyp3a4同源，是肠道外源和内源代谢的关键酶的基因编码。在本研究中，我们旨在更好地了解zfPXR， zfAhR2和zfGR斑马鱼同源物众所周知的人类异种传感器PXR和AhR以及类固醇核受体GR对cyp3a65表达的调控。为此，我们将斑马鱼胚胎tg(cyp3a65:GFP) （co）暴露于多种激动剂（克霉唑，TCDD，丙酸氟替卡松）和拮抗剂（硝酸康唑，CH223181, RU486）中，使用体外斑马鱼报告基因检测对其进行了表征。我们发现zfPXR和zfAhR2合作正调控cyp3a65的表达，涉及不同的转录因子及其相互作用。此外，我们首次发现zfGR激动剂强烈抑制cyp3a65的组成性表达，并推测转录因子zfHNF4α可能参与其中。这些结果提供了对斑马鱼cyp3a65表达调控的更好理解，突出了不同转录因子之间复杂的相互作用，这与人类cyp3a4的多种调控途径一致。我们的数据支持这一观点，即该基因是能够与zfPXR、zfAhR2和zfGR相互作用的多种污染物的靶标，并强调了tg（cyp3a65:GFP）模型的相关性，该模型可以根据其在肠道水平的作用方式筛选可能作为MDCs的化学物质，这可能与化学品对人类和环境健康的危害评估有关。

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

Aquatic Toxicology

Aquatic Toxicology 环境科学-毒理学

CiteScore

7.10

自引率

4.40%

发文量

250

审稿时长

56 days

期刊介绍： Aquatic Toxicology publishes significant contributions that increase the understanding of the impact of harmful substances (including natural and synthetic chemicals) on aquatic organisms and ecosystems. Aquatic Toxicology considers both laboratory and field studies with a focus on marine/ freshwater environments. We strive to attract high quality original scientific papers, critical reviews and expert opinion papers in the following areas: Effects of harmful substances on molecular, cellular, sub-organismal, organismal, population, community, and ecosystem level; Toxic Mechanisms; Genetic disturbances, transgenerational effects, behavioral and adaptive responses; Impacts of harmful substances on structure, function of and services provided by aquatic ecosystems; Mixture toxicity assessment; Statistical approaches to predict exposure to and hazards of contaminants The journal also considers manuscripts in other areas, such as the development of innovative concepts, approaches, and methodologies, which promote the wider application of toxicological datasets to the protection of aquatic environments and inform ecological risk assessments and decision making by relevant authorities.

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