Caenorhabditis elegans as a Model for Evaluating the Toxicology of Inorganic Nanoparticles.

IF 2.7 4区 医学 Q3 TOXICOLOGY Journal of Applied Toxicology Pub Date : 2024-11-06 DOI:10.1002/jat.4704
Aline Castro Silva, Gabriel Pedroso Viçozzi, Marcelo Farina, Daiana Silva Ávila
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Abstract

Inorganic nanoparticles are nanomaterials with a central core composed of inorganic specimens, especially metals, which give them interesting applications but can impact the environment and human health. Their short- and long-term effects are not completely known and to investigate that, alternative models have been successfully used. Among these, the nematode Caenorhabditis elegans has been increasingly applied in nanotoxicology in recent years because of its many features and advantages for toxicological screening. This non-parasitic nematode may inhabit any environment where organic matter is available; therefore, it is interesting for ecotoxicological assessments. Moreover, this worm has a high genetic homology to humans, making the findings translatable. A notable number of published studies unraveled the level of toxicity of different nanoparticles, including the mechanisms by which their toxicity occurs. This narrative review collects and describes the most relevant toxicological data for inorganic nanoparticles obtained using C. elegans and also supports its application in safety assessments for regulatory purposes.

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将秀丽隐杆线虫作为评估无机纳米颗粒毒理学的模型
无机纳米粒子是一种纳米材料,其中心核由无机标本(尤其是金属)组成。它们的短期和长期影响尚不完全清楚,为了研究这个问题,人们成功地使用了替代模型。其中,线虫(Caenorhabditis elegans)因其在毒理学筛选方面的许多特点和优势,近年来已越来越多地应用于纳米毒理学研究。这种非寄生线虫可以栖息在任何有有机物的环境中,因此对生态毒理学评估很有意义。此外,这种蠕虫与人类有很高的基因同源性,因此研究结果具有可转化性。大量已发表的研究揭示了不同纳米粒子的毒性水平,包括其产生毒性的机制。本叙述性综述收集并描述了利用眼镜蛇获得的最相关的无机纳米粒子毒理学数据,并支持将其应用于监管目的的安全评估。
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来源期刊
CiteScore
7.00
自引率
6.10%
发文量
145
审稿时长
1 months
期刊介绍: Journal of Applied Toxicology publishes peer-reviewed original reviews and hypothesis-driven research articles on mechanistic, fundamental and applied research relating to the toxicity of drugs and chemicals at the molecular, cellular, tissue, target organ and whole body level in vivo (by all relevant routes of exposure) and in vitro / ex vivo. All aspects of toxicology are covered (including but not limited to nanotoxicology, genomics and proteomics, teratogenesis, carcinogenesis, mutagenesis, reproductive and endocrine toxicology, toxicopathology, target organ toxicity, systems toxicity (eg immunotoxicity), neurobehavioral toxicology, mechanistic studies, biochemical and molecular toxicology, novel biomarkers, pharmacokinetics/PBPK, risk assessment and environmental health studies) and emphasis is given to papers of clear application to human health, and/or advance mechanistic understanding and/or provide significant contributions and impact to their field.
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