AI Article Synopsis
- * Exposure to five environmental chemicals revealed that casper embryos have higher susceptibility, with half-lethal concentrations that are 62-87% of those found in wild-type embryos.
- * Casper showed significant developmental defects and increased hyperlocomotion after exposure to specific chemicals, indicating its potential as a more sensitive model for assessing acute, developmental, and neurobehavioral toxicities.
Article Abstract
The response sensitivity to toxic substances is the most concerned performance of animal model in chemical risk assessment. Casper (mitfa;mpv17), a transparent zebrafish mutant, is a useful in vivo model for toxicological assessment. However, the ability of casper to respond to the toxicity of exogenous chemicals is unknown. In this study, zebrafish embryos were exposed to five environmental chemicals, chlorpyrifos, lindane, α-endosulfan, bisphenol A, tetrabromobisphenol A (TBBPA), and an antiepileptic drug valproic acid. The half-lethal concentration (LC) values of these chemicals in casper embryos were 62-87 % of that in the wild-type. After TBBPA exposure, the occurrence of developmental defects in the posterior blood island of casper embryos was increased by 67-77 % in relative to the wild-type, and the half-maximal effective concentration (EC) in casper was 73 % of that in the wild-type. Moreover, the casper genetic background significantly increased the hyperlocomotion caused by chlorpyrifos and lindane exposure compared with the wild-type. These results demonstrated that casper had greater susceptibility to toxicity than wild-type zebrafish in acute toxicity, developmental toxicity and neurobehavioral toxicity assessments. Our data will inform future toxicological studies in casper and accelerate the development of efficient approaches and strategies for toxicity assessment via the use of casper.
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| http://dx.doi.org/10.1016/j.scitotenv.2024.174865 | DOI Listing |
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