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Zebrafish as a vertebrate model for high-throughput drug toxicity screening: Mechanisms, novel techniques, and future perspectives

W. Wang, Xuan Gao, Lin Liu, Sheng Guo, Jin‐Ao Duan, Ping Xiao

2025Journal of Pharmaceutical Analysis22 citationsDOIOpen Access PDF

Abstract

Drug toxicity is closely related to both clinical drug safety and new drug development. Therefore, it is vital to understand the mechanisms of drug toxicity fully and to use appropriate research models with advanced technologies. Zebrafish has become an important vertebrate animal model for high-throughput drug screening and toxicity assessment. At the same time, zebrafish has an intact biological complexity, reflecting the whole organism's toxicity, which gives it an advantage over other high-throughput models in toxicity studies. Despite the gradual increase in toxicity studies utilizing zebrafish, a comprehensive and systematic review of the underlying mechanisms and new techniques is still lacking. This review aims to analyze common toxicity mechanisms in zebrafish models, such as oxidative stress, endoplasmic reticulum stress, inflammation, and apoptosis, and macroscopic changes in biological processes like lipid metabolism disorders and neurotransmitter expression abnormalities. It also introduces new technologies applied in toxicity assessment, such as gene editing, novel fluorescence imaging technology, 3D imaging technology, and novel automated technology for high-throughput screening, such as fish capsules. In addition, it also summarizes the advantages and disadvantages of the model. By doing so, it will provide new suggestions for the development and improvement of the model, make it better serve the toxicity study of clinical drugs and provide a more comprehensive perspective for drug toxicity study, thus promoting the development of the field of drug toxicity study. • A systematic summary of the mechanisms involved in the toxicity assessment of the zebrafish model is presented, and new techniques for refining the model are provided. • Highlighting the advantages of the zebrafish model with well-established biocomplexity in toxicity evaluation. • Provides novel and unique insights into the improvement of zebrafish models. • Prospects for the application of the zebrafish model.

Topics & Concepts

ZebrafishChemistryDrug discoveryVertebrateDrugComputational biologyToxicityThroughputPharmacologyComputer scienceBiochemistryBiologyGeneWirelessOrganic chemistryTelecommunicationsZebrafish Biomedical Research ApplicationsReceptor Mechanisms and SignalingNeuroinflammation and Neurodegeneration Mechanisms