Hepatotoxicity of N-nitrosodin-propylamine in larval zebrafish by upregulating the Wnt pathway

IF 3.3 3区医学 Q2 PHARMACOLOGY & PHARMACY

Toxicology and applied pharmacology Pub Date : 2024-11-01 DOI:10.1016/j.taap.2024.117132

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引用次数: 0

Abstract

N-nitrosodin-propylamine is an organic compound mainly used in organic synthesis. As a typical pollutant, the accidental release of N-nitrosodin-propylamine may cause environmental pollution, especially water environment pollution. In the present study, we used the zebrafish model for the first time to evaluate the developmental toxicity of this drug in the liver. Zebrafish larvae fertilized at 72hpf showed a range of toxic responses after 72hpf exposure to the drug. These include increased mortality, delayed absorption of yolk sac nutrients, shorter body length, abnormal liver morphology, gene disruption, and altered expression of various indicators with increasing dose. Studies on the mechanism of toxicity showed that N-nitrosodin-propylamine exposure increased the level of oxidative stress, increased the level of apoptosis in hepatocytes, and up-regulated the transcriptional expression level of Wnt signaling pathway genes. Astaxanthin and IWR-1 can effectively save the liver toxicity in zebrafish caused by N-nitrosodin-propylamine. Our study showed that the drug exposure induced hepatotoxicity in zebrafish larvae through the up-regulation of Wnt signaling pathway, oxidative stress and apoptosis.

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N-nitrosodin-propylamine 通过上调 Wnt 通路对斑马鱼幼体产生肝毒性。

N-nitrosodin-propylamine 是一种有机化合物，主要用于有机合成。作为一种典型的污染物，N-亚硝基二丙胺的意外释放可能会造成环境污染，尤其是水环境污染。在本研究中，我们首次使用斑马鱼模型来评估该药物在肝脏中的发育毒性。受精72hpf的斑马鱼幼体在接触该药物72hpf后出现了一系列毒性反应。这些反应包括死亡率增加、卵黄囊营养吸收延迟、体长缩短、肝脏形态异常、基因破坏以及随着剂量增加各种指标的表达发生变化。对毒性机制的研究表明，暴露于 N-亚硝基二丙胺会增加氧化应激水平，增加肝细胞凋亡水平，并上调 Wnt 信号通路基因的转录表达水平。虾青素和IWR-1能有效缓解N-亚硝基二丙胺对斑马鱼肝脏的毒性。我们的研究表明，药物暴露通过上调Wnt信号通路、氧化应激和细胞凋亡诱导斑马鱼幼体肝脏中毒。

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

Toxicology and applied pharmacology 医学-毒理学

CiteScore

6.80

自引率

2.60%

发文量

309

审稿时长

32 days

期刊介绍： Toxicology and Applied Pharmacology publishes original scientific research of relevance to animals or humans pertaining to the action of chemicals, drugs, or chemically-defined natural products. Regular articles address mechanistic approaches to physiological, pharmacologic, biochemical, cellular, or molecular understanding of toxicologic/pathologic lesions and to methods used to describe these responses. Safety Science articles address outstanding state-of-the-art preclinical and human translational characterization of drug and chemical safety employing cutting-edge science. Highly significant Regulatory Safety Science articles will also be considered in this category. Papers concerned with alternatives to the use of experimental animals are encouraged. Short articles report on high impact studies of broad interest to readers of TAAP that would benefit from rapid publication. These articles should contain no more than a combined total of four figures and tables. Authors should include in their cover letter the justification for consideration of their manuscript as a short article.