Visualizing Changes in Neuronal Dendritic Morphology in Response to Stress and Pharmacological Challenge

Q2 Neuroscience Current Protocols in Neuroscience Pub Date : 2017-01-01 DOI:10.1002/cpns.18

Cara L. Wellman

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引用次数: 4

Abstract

This unit outlines a protocol for Golgi staining, which has been used extensively to reliably and quantitatively assess alterations in dendritic arborization and spine density as a result of a variety of factors, including chronic administration of glucocorticoids, chronic stress, and pharmacological manipulations. The method stains neurons in their entirety, allowing for sophisticated analyses of branch lengths and numbers as well as patterns of dendritic branching. Advantages of the technique include its usefulness in multisite collaborations and its utility in visualizing neurons in multiple regions within the same brain. Given that it typically labels approximately one in one hundred neurons, many neurons per region of interest can be sampled per animal, greatly increasing the ability to obtain a representative sample of neurons. Limitations include its time-consuming nature, the hazardous chemicals employed, and the inability to use the stain to identify discrete subpopulations of neurons based on their projections, activation, or protein expression. © 2017 by John Wiley & Sons, Inc.

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可视化神经元树突形态在应激和药理学挑战反应中的变化

本单元概述了高尔基体染色方案，该方案已被广泛用于可靠和定量评估多种因素导致的树突树状化和脊柱密度的变化，包括糖皮质激素的长期给药、慢性应激和药物操作。该方法对神经元进行整体染色，可以对分支长度、数量以及树突分支模式进行复杂的分析。该技术的优点包括它在多站点协作中的有用性，以及它在可视化同一大脑中多个区域的神经元方面的实用性。考虑到它通常标记大约一百分之一的神经元，每个动物可以对每个感兴趣区域的许多神经元进行采样，从而大大提高了获得神经元代表性样本的能力。局限性包括其耗时性、使用的危险化学品，以及无法使用染色剂根据神经元的投射、激活或蛋白质表达来识别离散的神经元亚群。©2017 John Wiley&；股份有限公司。

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