斑马鱼在药物发现毒理学中的应用。

Use of Zebrafish in Drug Discovery Toxicology.

机构信息

Preclinical Safety , AbbVie , North Chicago , Illinois 60064 , United States.

Stem Cell and Regenerative Biology , Harvard University , Cambridge , Massachusetts 02138 , United States.

出版信息

Chem Res Toxicol. 2020 Jan 21;33(1):95-118. doi: 10.1021/acs.chemrestox.9b00335. Epub 2019 Nov 16.

DOI:10.1021/acs.chemrestox.9b00335

PMID:31625720

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7162671/

Abstract

Unpredicted human safety events in clinical trials for new drugs are costly in terms of human health and money. The drug discovery industry attempts to minimize those events with diligent preclinical safety testing. Current standard practices are good at preventing toxic compounds from being tested in the clinic; however, false negative preclinical toxicity results are still a reality. Continual improvement must be pursued in the preclinical realm. Higher-quality therapies can be brought forward with more information about potential toxicities and associated mechanisms. The zebrafish model is a bridge between in vitro assays and mammalian in vivo studies. This model is powerful in its breadth of application and tractability for research. In the past two decades, our understanding of disease biology and drug toxicity has grown significantly owing to thousands of studies on this tiny vertebrate. This Review summarizes challenges and strengths of the model, discusses the 3Rs value that it can deliver, highlights translatable and untranslatable biology, and brings together reports from recent studies with zebrafish focusing on new drug discovery toxicology.

摘要

新药临床试验中未预测到的人类安全事件在人力和财力方面代价高昂。药物发现行业试图通过勤奋的临床前安全性测试将这些事件的发生最小化。目前的标准做法善于防止有毒化合物在临床上进行测试；然而，假阴性临床前毒性结果仍然是现实。在临床前领域必须不断追求改进。通过更多关于潜在毒性和相关机制的信息，可以提出更高质量的治疗方法。斑马鱼模型是体外测定和哺乳动物体内研究之间的桥梁。该模型在应用的广泛性和研究的可操作性方面具有强大的优势。在过去的二十年中，由于对这种微小脊椎动物的数千项研究，我们对疾病生物学和药物毒性的理解有了显著的提高。这篇综述总结了该模型的挑战和优势，讨论了它能带来的 3R 价值，突出了可转化和不可转化的生物学，并汇集了最近关于斑马鱼的研究报告，重点关注新药发现毒理学。

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