大鼠短暂性前脑缺血过程中tau蛋白的去磷酸化。

D A Shackelford, R Y Yeh
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引用次数: 40

摘要

采用大鼠四血管闭塞模型研究了短暂性脑缺血对微管相关蛋白(MAP) tau磷酸化的影响。研究人员提出,tau蛋白磷酸化可调节其与微管的结合,影响轴突生长和神经突可塑性所需的微管组装动力学。在这项研究中,tau在海马、新皮层和纹状体缺血期间迅速去磷酸化。阻断后5分钟内观察到tau蛋白的去磷酸化,15分钟后在所有三个脑区都有所增加,无论它们对损伤的相对易损性如何。因此,在该模型中,tau蛋白的去磷酸化是缺血的早期标志,早于引起广泛神经元细胞死亡所需的闭塞时间。血流恢复15分钟后,tau蛋白在一个位点发生磷酸化,导致其电泳迁移率降低。tau蛋白的去磷酸化/磷酸化可能改变其在轴突和细胞体之间的分布,并影响其对蛋白水解的易感性。这些变化预计会影响微管的稳定性,可能导致轴突运输的中断,但也允许再生反应中的神经突重塑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dephosphorylation of tau during transient forebrain ischemia in the rat.

The effect of transient cerebral ischemia on phosphorylation of the microtubule-associated protein (MAP) tau was investigated using the rat four-vessel occlusion model. Phosphorylation of tau is proposed to regulate its binding to microtubules, influencing the dynamics of microtubule assembly necessary for axonal growth and neurite plasticity. In this study, tau was rapidly dephosphorylated during ischemia in the hippocampus, neocortex, and striatum. Dephosphorylation of tau was observed within 5 min of occlusion and increased after 15 min in all three brain regions, regardless of their relative vulnerability to the insult. Thus, dephosphorylation of tau is an early marker of ischemia and precedes the occlusion time required to cause extensive neuronal cell death in this model. On restoration of blood flow for a little as 15 min, tau was phosphorylated at a site(s) that causes a reduction in its electrophoretic mobility. The dephosphorylation/phosphorylation of tau may alter its distribution between axon and cell body, and affect its susceptibility to proteolysis. These changes would be expected to influence microtubule stability, possibly contributing to disruption of axonal transport, but also allowing neurite remodeling in a regenerative response.

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