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利用斑马鱼侧线揭示药物诱导毛细胞死亡的新作用机制和预防方法。

Using the zebrafish lateral line to uncover novel mechanisms of action and prevention in drug-induced hair cell death.

机构信息

Virginia Merrill Bloedel Hearing Research Center, University of Washington Seattle, WA, USA ; Department of Biological Structure, University of Washington Seattle, WA, USA.

Virginia Merrill Bloedel Hearing Research Center, University of Washington Seattle, WA, USA ; Department of Otolaryngology, Head and Neck Surgery, University of Washington Seattle, WA, USA.

出版信息

Front Cell Neurosci. 2015 Feb 18;9:46. doi: 10.3389/fncel.2015.00046. eCollection 2015.

DOI:10.3389/fncel.2015.00046
PMID:25741241
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4332341/
Abstract

The majority of hearing loss and balance disorders are caused by the permanent loss of mechanosensory hair cells of the inner ear. Identification of genes and compounds that modulate susceptibility to hair cell death is frequently confounded by the difficulties of assaying for such complex phenomena in mammalian models. The zebrafish has emerged as a powerful animal model for genetic and chemical screening in many contexts. Several characteristics of the zebrafish, such as its small size and external location of mechanosensory hair cells within the lateral line sensory organ, uniquely position it as an ideal model organism for the study of hair cell toxicity. We have used this model to screen for genes and compounds that affect hair cell survival during ototoxin exposure and have identified agents that would not be expected to play a role in this process based on a priori knowledge of their function. The identification of such agents yields better understanding of hair cell death and holds promise to stem hearing loss and balance disorders in the human population.

摘要

大多数听力损失和平衡障碍是由内耳机械感觉毛细胞的永久性丧失引起的。鉴定基因和化合物,调节毛细胞死亡的易感性,经常受到在哺乳动物模型中检测此类复杂现象的困难所困扰。斑马鱼已成为许多情况下遗传和化学筛选的有力动物模型。斑马鱼的几个特点,如其体型小和机械感觉毛细胞在侧线感觉器官中的外部位置,使其成为研究毛细胞毒性的理想模式生物。我们已经使用这种模型来筛选在耳毒性暴露期间影响毛细胞存活的基因和化合物,并鉴定了根据其功能的先验知识,预计不会在这个过程中发挥作用的试剂。鉴定这些试剂可以更好地了解毛细胞死亡,并有望阻止人类的听力损失和平衡障碍。

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