Taeyeon Hong, Hahyun Park, Gwonhwa Song, Whasun Lim
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However, no studies on early developmental toxicity in zebrafish models have been reported.</p><h3 data-test=\"abstract-sub-heading\">Objectives</h3><p>This study aimed to investigate the toxic effects of tolylfluanid on the early stages of zebrafish development.</p><h3 data-test=\"abstract-sub-heading\">Results</h3><p>At low tolylfluanid concentrations, survival rates, hatching rates, and yolk sac morphology remained unchanged. However, body length and eye size were slightly reduced compared to those of the control. In particular, <i>olig2</i> transgenic zebrafish exposed to tolylfluanid exhibited impaired motor neuron formation, leading to reduced motor neuron length. Furthermore, tolylfluanid decreased liver size in <i>fabp10a</i> transgenic zebrafish larvae, inducing liver-specific red fluorescence. However, tolylfluanid exposure did not affect the vasculature of zebrafish embryos in the <i>fli1a</i>:eGFP transgenic model.</p><h3 data-test=\"abstract-sub-heading\">Conclusion</h3><p>Tolylfluanid disrupts organogenesis, particularly in motor neurons and the liver, during early development in zebrafish. Additionally, the results provide reference points for the concentration conditions that can be used in aquatic ecosystems.</p>","PeriodicalId":18683,"journal":{"name":"Molecular & Cellular Toxicology","volume":"31 9 1","pages":""},"PeriodicalIF":1.1000,"publicationDate":"2024-04-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Tolylfluanid induces developmental toxicity via liver dysfunction in zebrafish embryos\",\"authors\":\"Taeyeon Hong, Hahyun Park, Gwonhwa Song, Whasun Lim\",\"doi\":\"10.1007/s13273-024-00436-8\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<h3 data-test=\\\"abstract-sub-heading\\\">Background</h3><p>Tolylfluanid is a phenylsulfamide fungicide used to mitigate enormous losses in agriculture and coastal industries. Previous studies have reported that exposure to tolylfluanid causes metabolic dysfunction, such as fat accumulation. 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Tolylfluanid induces developmental toxicity via liver dysfunction in zebrafish embryos
Background
Tolylfluanid is a phenylsulfamide fungicide used to mitigate enormous losses in agriculture and coastal industries. Previous studies have reported that exposure to tolylfluanid causes metabolic dysfunction, such as fat accumulation. Additionally, exposure to tolylfluanid used to be detected in strawberries at levels exceeding the maximum residue limit. However, no studies on early developmental toxicity in zebrafish models have been reported.
Objectives
This study aimed to investigate the toxic effects of tolylfluanid on the early stages of zebrafish development.
Results
At low tolylfluanid concentrations, survival rates, hatching rates, and yolk sac morphology remained unchanged. However, body length and eye size were slightly reduced compared to those of the control. In particular, olig2 transgenic zebrafish exposed to tolylfluanid exhibited impaired motor neuron formation, leading to reduced motor neuron length. Furthermore, tolylfluanid decreased liver size in fabp10a transgenic zebrafish larvae, inducing liver-specific red fluorescence. However, tolylfluanid exposure did not affect the vasculature of zebrafish embryos in the fli1a:eGFP transgenic model.
Conclusion
Tolylfluanid disrupts organogenesis, particularly in motor neurons and the liver, during early development in zebrafish. Additionally, the results provide reference points for the concentration conditions that can be used in aquatic ecosystems.
期刊介绍:
Molecular & Cellular Toxicology publishes original research and reviews in all areas of the complex interaction between the cell´s genome (the sum of all genes within the chromosome), chemicals in the environment, and disease. Acceptable manuscripts are the ones that deal with some topics of environmental contaminants, including those that lie in the domains of analytical chemistry, biochemistry, pharmacology and toxicology with the aspects of molecular and cellular levels. Emphasis will be placed on toxic effects observed at relevant genomics and proteomics, which have direct impact on drug development, environment health, food safety, preventive medicine, and forensic medicine. The journal is committed to rapid peer review to ensure the publication of highest quality original research and timely news and review articles.
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