脑内皮通透性的控制。

N J Abbott, P A Revest
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引用次数: 0

摘要

大脑微血管的内皮比身体其他部位要紧得多。尽管脑内皮似乎具有与其他内皮相同的跨内皮转移途径,但某些途径的罕见性导致其整体通透性极低。与脑内皮相关的细胞,特别是星形胶质细胞,似乎参与了低渗透状态的诱导。尽管相对不受缺氧和血浆离子浓度变化的影响,但内皮细胞的拉伸和收缩以及炎症介质会增加脑内皮通透性。最近的证据表明,许多跨内皮通透性增加的介质通过提高细胞内游离钙起作用,并引起收缩事件,将紧密连接拉开;这似乎也适用于脑内皮。将脑内皮与血神经屏障的一部分——周围神经的神经周围膜进行比较,提示病理情况下脑内皮通透性的调节可能具有一定的生理优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Control of brain endothelial permeability.

The endothelium of the brain microvasculature is much tighter than that elsewhere in the body. Although brain endothelium appears to possess the same routes for transendothelial transfer as other endothelia, the rarity of some routes leads to an extremely low overall permeability. Cells associated with brain endothelium, particularly astrocytic glial cells, appear to be involved in induction of the low permeability state. Although relatively unaffected by hypoxia and changes in plasma ion concentration, brain endothelial permeability is increased by stretch and shrinkage of endothelial cells, and by inflammatory mediators. Recent evidence suggests that many mediators of increased transendothelial permeability act by raising intracellular free calcium, and causing a contractile event that pulls apart the tight junctions; this also appears to apply to brain endothelium. Comparison of the brain endothelium with the perineurium of peripheral nerve, part of the blood-nerve barrier, suggests that the modulation of brain endothelial permeability seen in pathological situations may give some physiological advantage.

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