兰尼碱受体、钙信号转导与脑实质微循环血管张力调节
Ryanodine receptors, calcium signaling, and regulation of vascular tone in the cerebral parenchymal microcirculation.
机构信息
Department of Pharmacology, College of Medicine, University of Vermont, Burlington, Vermont, USA.
出版信息
Microcirculation. 2013 May;20(4):307-16. doi: 10.1111/micc.12027.
Abstract
The cerebral blood supply is delivered by a surface network of pial arteries and arterioles from which arise (parenchymal) arterioles that penetrate into the cortex and terminate in a rich capillary bed. The critical regulation of CBF, locally and globally, requires precise vasomotor regulation of the intracerebral microvasculature. This vascular region is anatomically unique as illustrated by the presence of astrocytic processes that envelope almost the entire basolateral surface of PAs. There are, moreover, notable functional differences between pial arteries and PAs. For example, in pial VSMCs, local calcium release events ("calcium sparks") through ryanodine receptor (RyR) channels in SR membrane activate large conductance, calcium-sensitive potassium channels to modulate vascular diameter. In contrast, VSMCs in PAs express functional RyR and BK channels, but under physiological conditions, these channels do not oppose pressure-induced vasoconstriction. Here, we summarize the roles of ryanodine receptors in the parenchymal microvasculature under physiologic and pathologic conditions, and discuss their importance in the control of CBF.
摘要
脑的血液供应由软脑膜动脉和小动脉的表面网络提供,从小动脉分支出(实质)小动脉,穿透皮层并终止于丰富的毛细血管床中。局部和整体的 CBF 的关键调节需要对脑内微血管进行精确的血管舒缩调节。这个血管区域在解剖学上是独特的,如星形胶质细胞突起的存在,这些突起几乎包裹了 PA 的整个基底外侧表面。此外,软脑膜动脉和 PA 之间存在显著的功能差异。例如,在软脑膜 VSMCs 中,通过肌质网(SR)膜中的ryanodine 受体(RyR)通道发生的局部钙释放事件(“钙火花”)激活大电导、钙敏感性钾通道来调节血管直径。相比之下,PA 中的 VSMCs 表达功能性 RyR 和 BK 通道,但在生理条件下,这些通道并不对抗压力诱导的血管收缩。在这里,我们总结了在生理和病理条件下 ryanodine 受体在实质微血管中的作用,并讨论了它们在 CBF 控制中的重要性。
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