Sipes Nisha S, Padilla Stephanie, Knudsen Thomas B
National Center for Computational Toxicology, U.S. Environmental Protection Agency, Research Triangle Park, North Carolina, USA.
Birth Defects Res C Embryo Today. 2011 Sep;93(3):256-67. doi: 10.1002/bdrc.20214.
The zebrafish embryo is a useful small model for investigating vertebrate development because of its transparency, low cost, transgenic and morpholino capabilities, conservation of cell signaling, and concordance with mammalian developmental phenotypes. From these advantages, the zebrafish embryo has been considered as an alternative model for traditional in vivo developmental toxicity screening. The use of this organism in conjunction with traditional in vivo developmental toxicity testing has the potential to reduce cost and increase throughput of testing the chemical universe, prioritize chemicals for targeted toxicity testing, generate predictive models of developmental toxicants, and elucidate mechanisms and adverse outcome pathways for abnormal development. This review gives an overview of the zebrafish embryo for pre dictive toxicology and 21st century toxicity testing. Developmental eye defects were selected as an example to evaluate data from the U.S. Environmental Protection Agency's ToxCast program comparing responses in zebrafish embryos with those from pregnant rats and rabbits for a subset of 24 environmental chemicals across >600 in vitro assay targets. Cross-species comparisons implied a common basis for biological pathways associated with neuronal defects, extracellular matrix remodeling, and mitotic arrest.
斑马鱼胚胎因其透明性、低成本、转基因和吗啉代能力、细胞信号传导的保守性以及与哺乳动物发育表型的一致性,是研究脊椎动物发育的有用小型模型。基于这些优势,斑马鱼胚胎被视为传统体内发育毒性筛选的替代模型。将这种生物与传统体内发育毒性测试结合使用,有可能降低成本、提高测试化学物质的通量、为靶向毒性测试确定化学物质的优先级、生成发育毒物的预测模型,并阐明异常发育的机制和不良结局途径。本综述概述了用于预测毒理学和21世纪毒性测试的斑马鱼胚胎。以发育性眼缺陷为例,评估了美国环境保护局的ToxCast计划的数据,该计划比较了斑马鱼胚胎与怀孕大鼠和兔子对24种环境化学物质子集在>600个体外测定靶点上的反应。跨物种比较暗示了与神经元缺陷、细胞外基质重塑和有丝分裂停滞相关的生物途径的共同基础。
