并行传输
跨细胞
血脑屏障
生物
细胞生物学
紧密连接
内吞作用
小窝
跨细胞
内皮
神经科学
胞饮病
囊泡转运蛋白
内体
隔膜连接
粘合连接
细胞内
中枢神经系统
信号转导
缝隙连接
小泡
细胞
磁导率
生物化学
膜
内分泌学
钙粘蛋白
作者
Marijke De Bock,Valérie Van Haver,Roosmarijn E. Vandenbroucke,Elke Decrock,Nan Wang,Luc Leybaert
出处
期刊:Glia
[Wiley]
日期:2016-02-08
卷期号:64 (7): 1097-1123
被引量:142
摘要
Efficient neuronal signaling in the central nervous system strictly depends on a well‐balanced microenvironment around glial cells, synapses, and axons. Unique features of the blood–brain barrier (BBB) endothelium largely determine the composition of this micro‐milieu and are dependent on the tight interplay with surrounding astrocytes and pericytes. BBB endothelial cells are endowed with a highly restrictive junctional complex that occludes the intercellular cleft, thereby preventing paracellular diffusion. The paracellular pathway is subject to extensive research as integrity loss of the junctional complex is associated with many neuropathologies, inflammation, and edema. Another important feature of the BBB endothelium is the low prevalence of nonspecific, transcytotic events, including (macro)pinocytosis, clathrin‐dependent and caveolin‐dependent endocytosis and the subsequent trafficking of vesicles to the opposite membrane. Although less studied, evidence is accruing that this pathway importantly contributes to increased BBB permeability, often when the junctional complex remains intact. Here, we review current knowledge on the contribution of the transcellular pathway to the BBB leak observed in different pathologic conditions. In addition, we hypothesize that nonselective, large pore connexin and pannexin channels may contribute to transcellular transport, either by providing a direct diffusion pathway across the endothelial monolayer, or indirectly, by exerting control over intracellular levels of the signaling ion Ca 2+ that is involved in many steps of the vesicular pathway. We conclude that transcytotic events at the BBB, despite being less acknowledged, cannot be simply dismissed as done in the past, but actively contribute to BBB leakage in many different pathologies. GLIA 2016;64:1097–1123
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