Light and Electron Microscopy Methods for Examination of Cochlear Morphology in Mouse Models of Deafness

Q1 Agricultural and Biological Sciences Current protocols in mouse biology Pub Date : 2016-09-01 DOI:10.1002/cpmo.10

Andrew Parker, Lauren Chessum, Philomena Mburu, Jeremy Sanderson, Michael R. Bowl

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引用次数: 6

Abstract

Mice are an invaluable model organism for the study of auditory function. Even though there are differences in size and frequency response, the anatomy and physiology of the mouse and human ear are remarkably similar. In addition, the tools available for genetic manipulation in the mouse have enabled the generation of models carrying mutations in orthologous human deafness-causing genes, helping to validate these lesions and assess their functional consequence. Reciprocally, novel gene mutations discovered to cause auditory deficits in the mouse highlight potential new loci for human hearing loss, and expand our basic knowledge of the mechanisms and pathways important for the function of the mammalian ear. Microscopy and imaging are invaluable techniques that allow detailed characterization of cochlear pathologies associated with particular gene mutations. However, the highly organized, delicate, and intricate structures responsible for transduction of sound waves into nerve impulses are encapsulated in one of the hardest bones in the body – the temporal bone. This makes sample preparation without damage to the soft tissue, be it from dissection or processing, somewhat challenging. Fortunately, there are numerous methods for achieving high-quality images of the mouse cochlea. Reported in this article are a selection of sample preparation and imaging techniques that can be used routinely to assess cochlear morphology. Several protocols are also described for immunodetection of proteins in the cochlea. In addition, the advantages and disadvantages between different imaging platforms and their suitability for different types of microscopic examination are highlighted. © 2016 by John Wiley & Sons, Inc.

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耳聋小鼠模型耳蜗形态的光镜和电镜检查方法

小鼠是研究听觉功能的宝贵模式生物。尽管在大小和频率响应方面存在差异，但老鼠耳朵和人耳朵的解剖和生理结构却非常相似。此外，可用于小鼠基因操作的工具已经能够生成携带同源人类耳聋引起基因突变的模型，有助于验证这些病变并评估其功能后果。反过来，在小鼠中发现的导致听觉缺陷的新基因突变突出了人类听力损失的潜在新位点，并扩展了我们对哺乳动物耳朵功能重要机制和途径的基本知识。显微镜和成像是非常宝贵的技术，可以详细描述与特定基因突变相关的耳蜗病理。然而，负责将声波转化为神经冲动的高度组织、精细和复杂的结构被包裹在人体最坚硬的骨头之一——颞骨中。这使得样品制备不损害软组织，无论是解剖还是处理，有点挑战性。幸运的是，有许多方法可以获得高质量的小鼠耳蜗图像。在这篇文章中报告了一种选择的样品制备和成像技术，可用于常规评估耳蜗形态。几种方案也描述了免疫检测的蛋白质在耳蜗。此外，还强调了不同成像平台之间的优缺点以及不同类型显微检查的适用性。©2016 by John Wiley &儿子,Inc。

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Current protocols in mouse biology Agricultural and Biological Sciences-Animal Science and Zoology

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期刊介绍： Sound and reproducible laboratory methods are the foundation of scientific discovery. Yet, all too often, nuances that are critical for an experiment''s success are not captured in the primary literature but exist only as part of a lab''s oral tradition. The aim of Current Protocols in Mouse Biology is to provide the clearest, most detailed and reliable step-by-step instructions for protocols involving the use of mice in biomedical research. Written by experts in the field and extensively edited to our exacting standards, the protocols include all of the information necessary to complete an experiment in the laboratory—introduction, materials lists with supplier information, detailed step-by-step procedures with helpful annotations, recipes for reagents and solutions, illustrative figures and information-packed tables. Each article also provides invaluable discussions of background information, applications of the methods, important assumptions, key parameters, time considerations, and tips to help avoid common pitfalls and troubleshoot experiments. Furthermore, Current Protocols in Mouse Biology content is thoughtfully organized by topic for optimal usage and to maximize contextual knowledge. Quarterly issues allow Current Protocols to constantly evolve to keep pace with the newest discoveries and developments. Current Protocols in Mouse Biology brings together resources in mouse biology and genetics and provides a mouse protocol resource that covers all aspects of mouse biology. Current Protocols in Mouse Biology also permits optimization of mouse model usage, which is significantly impacted by both cost and ethical constraints. Optimal and standardized mouse protocols ultimately reduce experimental variability and reduce the number of animals used in mouse experiments.