TMEM16A/ANO1 通道有助于大脑动脉的肌源性反应。

TMEM16A/ANO1 channels contribute to the myogenic response in cerebral arteries.

机构信息

Department of Physiology, University of Tennessee Health Science Center, Memphis, TN 38163, USA.

出版信息

Circ Res. 2012 Sep 28;111(8):1027-36. doi: 10.1161/CIRCRESAHA.112.277145. Epub 2012 Aug 7.

DOI:10.1161/CIRCRESAHA.112.277145

PMID:22872152

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3666568/

Abstract

RATIONALE

Pressure-induced arterial depolarization and constriction (the myogenic response) is a smooth muscle cell (myocyte)-specific mechanism that controls regional organ blood flow and systemic blood pressure. Several different nonselective cation channels contribute to pressure-induced depolarization, but signaling mechanisms involved are unclear. Similarly uncertain is the contribution of anion channels to the myogenic response and physiological functions and mechanisms of regulation of recently discovered transmembrane 16A (TMEM16A), also termed Anoctamin 1, chloride (Cl(-)) channels in arterial myocytes.

OBJECTIVE

To investigate the hypothesis that myocyte TMEM16A channels control membrane potential and contractility and contribute to the myogenic response in cerebral arteries.

METHODS AND RESULTS

Cell swelling induced by hyposmotic bath solution stimulated Cl(-) currents in arterial myocytes that were blocked by TMEM16A channel inhibitory antibodies, RNAi-mediated selective TMEM16A channel knockdown, removal of extracellular calcium (Ca(2+)), replacement of intracellular EGTA with BAPTA, a fast Ca(2+) chelator, and Gd(3+) and SKF-96365, nonselective cation channel blockers. In contrast, nimodipine, a voltage-dependent Ca(2+) channel inhibitor, or thapsigargin, which depletes intracellular Ca(2+) stores, did not alter swelling-activated TMEM16A currents. Pressure-induced (-40 mm Hg) membrane stretch activated ion channels in arterial myocyte cell-attached patches that were inhibited by TMEM16A antibodies and were of similar amplitude to recombinant TMEM16A channels. TMEM16A knockdown reduced intravascular pressure-induced depolarization and vasoconstriction but did not alter depolarization-induced (60 mmol/L K(+)) vasoconstriction.

CONCLUSIONS

Membrane stretch activates arterial myocyte TMEM16A channels, leading to membrane depolarization and vasoconstriction. Data also provide a mechanism by which a local Ca(2+) signal generated by nonselective cation channels stimulates TMEM16A channels to induce myogenic constriction.

摘要

原理

压力诱导的动脉去极化和收缩（肌源性反应）是一种平滑肌细胞（肌细胞）特异性机制，控制局部器官血流和全身血压。几种不同的非选择性阳离子通道有助于压力诱导的去极化，但涉及的信号机制尚不清楚。同样不确定的是阴离子通道对肌源性反应以及最近发现的跨膜 16A（TMEM16A）、也称为 Anoctamin 1、动脉肌细胞中氯离子（Cl(-)）通道的生理功能和调节机制的贡献。

目的

研究肌细胞 TMEM16A 通道控制膜电位和收缩力并有助于脑动脉肌源性反应的假说。

方法和结果

低渗浴液引起的细胞肿胀刺激动脉肌细胞中的 Cl(-)电流，该电流被 TMEM16A 通道抑制性抗体、RNAi 介导的选择性 TMEM16A 通道敲低、去除细胞外钙（Ca(2+)）、用快速 Ca(2+)螯合剂 BAPTA 代替细胞内 EGTA 以及 Gd(3+) 和 SKF-96365、非选择性阳离子通道阻滞剂阻断。相比之下，电压依赖性 Ca(2+)通道抑制剂尼莫地平或耗尽细胞内 Ca(2+)储存的 thapsigargin 不会改变肿胀激活的 TMEM16A 电流。压力诱导的（-40mmHg）膜拉伸激活动脉肌细胞质贴附斑块中的离子通道，该通道被 TMEM16A 抗体抑制，幅度与重组 TMEM16A 通道相似。TMEM16A 敲低减少了血管内压力诱导的去极化和血管收缩，但不改变去极化诱导的（60mmol/L K(+)）血管收缩。

结论

膜拉伸激活动脉肌细胞 TMEM16A 通道，导致膜去极化和血管收缩。数据还提供了一种机制，即非选择性阳离子通道产生的局部 Ca(2+)信号刺激 TMEM16A 通道诱导肌源性收缩。

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