扩散性抑制期间神经血管单元的高分辨率活体成像
High-resolution in vivo imaging of the neurovascular unit during spreading depression.
作者信息
Chuquet Julien, Hollender Liad, Nimchinsky Esther A
机构信息
Center for Molecular and Behavioral Neuroscience, Rutgers University, Newark, New Jersey 07102, USA.
出版信息
J Neurosci. 2007 Apr 11;27(15):4036-44. doi: 10.1523/JNEUROSCI.0721-07.2007.
Abstract
Spreading depression (SD) is a propagating wave of neuronal depolarization and ionic shifts, seen in stroke and migraine. In vitro, SD is associated with astrocytic [Ca2+] waves, but it is unclear what role they play and whether they influence cerebral blood flow, which is altered in SD. Here we show that SD in vivo is associated with [Ca2+] waves in astrocytes and neurons and with constriction of intracortical arterioles severe enough to result in arrest of capillary perfusion. The vasoconstriction is correlated with fast astrocytic [Ca2+] waves and is inhibited when they are reduced. [Ca2+] waves appear in neurons before astrocytes, and inhibition of astrocytic [Ca2+] waves does not depress SD propagation. This suggests that astrocytes do not drive SD propagation but are responsible for the hemodynamic failure seen deep in the cortex. Similar waves occur in anoxic depolarizations (AD), supporting the notion that SD and AD are related processes.
摘要
扩散性抑制(SD)是一种神经元去极化和离子转移的传播波,见于中风和偏头痛。在体外,SD与星形胶质细胞的[Ca2+]波相关,但它们发挥何种作用以及是否影响脑血流量尚不清楚,而脑血流量在SD中会发生改变。在这里,我们表明体内的SD与星形胶质细胞和神经元中的[Ca2+]波以及皮层内小动脉的收缩有关,收缩严重到足以导致毛细血管灌注停止。血管收缩与快速的星形胶质细胞[Ca2+]波相关,当这些波减少时血管收缩受到抑制。[Ca2+]波在神经元中比在星形胶质细胞中出现得更早,并且抑制星形胶质细胞的[Ca2+]波并不会抑制SD的传播。这表明星形胶质细胞不会驱动SD的传播,但对皮层深部出现的血流动力学衰竭负责。类似的波也出现在缺氧去极化(AD)中,支持了SD和AD是相关过程的观点。
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