Zebrafish and nematodes as whole organism models to measure developmental neurotoxicity.

IF 5.7 2区 医学 Q1 TOXICOLOGY Critical Reviews in Toxicology Pub Date : 2024-05-01 Epub Date: 2024-06-04 DOI:10.1080/10408444.2024.2342448
Samantha Hughes, Ellen V S Hessel
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Abstract

Despite the growing epidemiological evidence of an association between toxin exposure and developmental neurotoxicity (DNT), systematic testing of DNT is not mandatory in international regulations for admission of pharmaceuticals or industrial chemicals. However, to date around 200 compounds, ranging from pesticides, pharmaceuticals and industrial chemicals, have been tested for DNT in the current OECD test guidelines (TG-443 or TG-426). There are calls for the development of new approach methodologies (NAMs) for DNT, which has resulted in a DNT testing battery using in vitro human cell-based assays. These assays provide a means to elucidate the molecular mechanisms of toxicity in humans which is lacking in animal-based toxicity tests. However, cell-based assays do not represent all steps of the complex process leading to DNT. Validated models with a multi-organ network of pathways that interact at the molecular, cellular and tissue level at very specific timepoints in a life cycle are currently missing. Consequently, whole model organisms are being developed to screen for, and causally link, new molecular targets of DNT compounds and how they affect whole brain development and neurobehavioral endpoints. Given the practical and ethical restraints associated with vertebrate testing, lower animal models that qualify as 3 R (reduce, refine and replace) models, including the nematode (Caenorhabditis elegans) and the zebrafish (Danio rerio) will prove particularly valuable for unravelling toxicity pathways leading to DNT. Although not as complex as the human brain, these 3 R-models develop a complete functioning brain with numerous neurodevelopmental processes overlapping with human brain development. Importantly, the main signalling pathways relating to (neuro)development, metabolism and growth are highly conserved in these models. We propose the use of whole model organisms specifically zebrafish and C. elegans for DNT relevant endpoints.

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将斑马鱼和线虫作为整体生物模型来测量发育神经毒性。
尽管越来越多的流行病学证据表明,接触毒素与发育神经毒性(DNT)之间存在关联,但在国际药品或工业化学品准入法规中,并未强制要求对 DNT 进行系统检测。不过,迄今为止,经合组织(OECD)的现行测试指南(TG-443 或 TG-426)已对约 200 种化合物(包括杀虫剂、药品和工业化学品)进行了 DNT 测试。人们呼吁针对 DNT 开发新的方法(NAMs),由此产生了使用体外人体细胞检测法的 DNT 检测电池。这些试验为阐明人体毒性的分子机制提供了一种方法,而动物毒性试验则缺乏这种方法。然而,基于细胞的检测并不能代表导致 DNT 的复杂过程的所有步骤。目前,还缺少在生命周期的特定时间点上,在分子、细胞和组织水平上相互作用的多器官通路网络的验证模型。因此,目前正在开发整体生物模型,以筛选 DNT 化合物的新分子靶点,并将其与 DNT 化合物如何影响整个大脑发育和神经行为终点联系起来。鉴于脊椎动物试验在实际操作和伦理方面的限制,符合 3 R(减少、改进和替代)模型的低等动物模型,包括线虫(Caenorhabditis elegans)和斑马鱼(Danio rerio),将被证明对揭示导致 DNT 的毒性途径特别有价值。这 3 种 R 模型虽然不像人脑那样复杂,但它们发育出的大脑功能完整,许多神经发育过程与人脑发育过程重叠。重要的是,与(神经)发育、新陈代谢和生长有关的主要信号通路在这些模型中高度一致。我们建议使用完整的模式生物,特别是斑马鱼和文昌鱼来进行 DNT 相关终点研究。
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来源期刊
CiteScore
9.50
自引率
1.70%
发文量
29
期刊介绍: Critical Reviews in Toxicology provides up-to-date, objective analyses of topics related to the mechanisms of action, responses, and assessment of health risks due to toxicant exposure. The journal publishes critical, comprehensive reviews of research findings in toxicology and the application of toxicological information in assessing human health hazards and risks. Toxicants of concern include commodity and specialty chemicals such as formaldehyde, acrylonitrile, and pesticides; pharmaceutical agents of all types; consumer products such as macronutrients and food additives; environmental agents such as ambient ozone; and occupational exposures such as asbestos and benzene.
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