死后延迟对大鼠微管相关蛋白tau、MAP2和MAP5分布的影响。

E A Irving, J McCulloch, D Dewar
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引用次数: 14

摘要

细胞骨架的破坏与多种疾病的神经退行性过程有关,包括阿尔茨海默病(AD)和中风。对人类这类疾病的研究需要使用死后的脑组织。死后延迟的时间从几小时到几天不等,在这段时间内,可能会发生一定程度的细胞骨架分解。因此,检查死后延迟导致的细胞骨架变化,并从疾病引起的变化中减去这些变化是至关重要的。本研究以死后0 ~ 72 h为间隔时间,检测了tau、MAP2和MAP5在大鼠大脑皮层、胼胝体、尾状核和海马中的免疫组化分布。每个微管相关蛋白(MAP)都经历了独特的变化,这取决于死后时间和所检查的大脑区域。经过长时间的死后延迟,这些蛋白质的一些变化与在脑缺血啮齿动物模型中看到的相似。这些结果表明,map在大鼠死后延迟期间并不稳定。因此,在解释人类死后组织中MAPs的变化时必须谨慎,特别是在可能涉及缺血性损伤的情况下。因此,对于人类神经退行性疾病中细胞骨骼异常的有意义解释来说,仔细匹配死后延迟的对照组织检查是必不可少的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effect of postmortem delay on the distribution of microtubule-associated proteins tau, MAP2, and MAP5 in the rat.

Breakdown or disruption of the cytoskeleton has been implicated in the neurodegenerative processes of a variety of diseases, including Alzheimer disease (AD) and stroke. Studies of such diseases in the human involve the use of postmortem brain tissue. Postmortem delay may vary considerably from a few hours to a few days, and within this period, a degree of cytoskeletal breakdown may occur. It is therefore crucial to examine alterations occurring in the cytoskeleton as a result of postmortem delay and subtract these from those caused by the disease. In this study, the distribution of tau, MAP2, and MAP5 immunohistochemistry was examined following postmortem intervals of 0-72 h in the rat cerebral cortex, corpus callosum, caudate nucleus, and hippocampus. Each microtubule-associated protein (MAP) underwent unique changes that were dependent both on postmortem interval and the brain region examined. Following long postmortem delays, some of the changes in these proteins were similar to those seen in rodent models of cerebral ischemia. These results demonstrate that MAPs are not stable during postmortem delay in the rat. Therefore, caution must be exercised when interpreting changes in MAPs in human postmortem tissue, especially in cases where ischemic injury may be involved. Examination of control tissue carefully matched for postmortem delay is therefore essential to allow meaningful interpretation of cytoskeletal abnormalities in human neurodegenerative disease.

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