Electron Microscopic Methods for Determining Changes in the Density of Synaptic Input to Neurons in the Aging Brain

Neuroprotocols Pub Date : 1994-06-01 DOI:10.1006/NCMN.1994.1030

J. Witkin

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引用次数: 1

Abstract

Changes in the synaptic input to aging neurons can best be evaluated using electron microscopy (EM). Immunocytochemistry is used to identify neuronal populations and to distinguish the chemical identity of their synaptic input, using a double-label protocol (e.g., diaminobenzidine for the sites of the first antigen/antibody complexes and tetramethylbenzidine for the second). In preparing tissue for EM examination, neurons are sectioned in the plane of the nucleus at 70 nm and sections collected on slot hole grids. Photographic montages of neurons are made at a minimum of 3 depths of section, with about 1 μm intervening. The original micrographs are taken at 10,000× and printed at 25,000×. Morphometric analyses are performed using the Bloquant program (R&M Biometrics) and an IBM computer. The perikaryal membrane is outlined on an X-Y digitizing pad, and regions along which there is synaptic modification are measured. These synaptic regions are expressed as a percentage of the perikaryal membrane measured. Data are tested using a non-parametric statistic (Mann-Whitney U, P < 0.05). In some cases, the entire neuronal soma is serially sectioned in order to determine whether synapses are randomly distributed over the neuronal surface.

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测定老化大脑中神经元突触输入密度变化的电镜方法

老化神经元突触输入的变化可以用电子显微镜(EM)来最好地评估。免疫细胞化学用于识别神经元群并区分其突触输入的化学特性，使用双标签协议(例如，二氨基联苯胺用于第一个抗原/抗体复合物的位点，四甲基联苯胺用于第二个)。在准备组织进行EM检查时，神经元在70 nm的核平面上切片，并在槽孔网格上收集切片。神经元的摄影蒙太奇至少在3个深度的切片，中间约1 μm。原始的显微照片是在10000倍的分辨率下拍摄的，在25000倍的分辨率下打印的。使用Bloquant程序(R&M生物计量学)和IBM计算机执行形态计量学分析。在X-Y数字化垫上勾勒出核周膜，并测量突触修饰的区域。这些突触区域以所测量的核周膜的百分比表示。数据使用非参数统计量进行检验(Mann-Whitney U, P < 0.05)。在某些情况下，为了确定突触是否随机分布在神经元表面，整个神经元体被连续切片。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Neuroprotocols

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