高碳酸血症时的脑血管舒张。格列本脲敏感性钾通道和一氧化氮的作用。

Cerebral vasodilation during hypercapnia. Role of glibenclamide-sensitive potassium channels and nitric oxide.

作者信息

Faraci F M, Breese K R, Heistad D D

机构信息

Department of Internal Medicine, University of Iowa College of Medicine, Iowa City 52242.

出版信息

Stroke. 1994 Aug;25(8):1679-83. doi: 10.1161/01.str.25.8.1679.

DOI:10.1161/01.str.25.8.1679

PMID:8042220

Abstract

BACKGROUND AND PURPOSE

The purpose of these experiments was to examine mechanisms by which hypercapnia produces vasodilatation in brain. We examined the hypothesis that dilatation of cerebral arterioles during hypercapnia is dependent on activation of ATP-sensitive potassium channels and formation of nitric oxide.

METHODS

Diameters of cerebral arterioles were measured using a closed cranial window in anesthetized rabbits. Changes in diameter of arterioles were measured in response to topical application of acetylcholine and sodium nitroprusside and during two levels of systemic hypercapnia.

RESULTS

Increasing arterial PCO2 from 32 +/- 1 mm Hg (mean +/- SE) to 54 +/- 1 and 66 +/- 1 mm Hg dilated cerebral arterioles by 25 +/- 3% and 38 +/- 5%, respectively, from a control diameter of 93 +/- 3 microns. The response to the low level of hypercapnia was attenuated (25 +/- 3% versus 16 +/- 4%, P < .05) by glibenclamide (1 mumol/L), an inhibitor of ATP-sensitive potassium channels. Vasodilatation in response to the high level of hypercapnia was not affected by glibenclamide. Increases in arteriolar diameter in response to sodium nitroprusside were not inhibited by glibenclamide. NG-nitro-L-arginine (300 mumol/L), an inhibitor of nitric oxide synthase, completely inhibited dilatation of cerebral arterioles in response to the low level of hypercapnia and inhibited vasodilatation during the high level of hypercapnia by 66%.

CONCLUSIONS

Thus, activation of glibenclamide-sensitive potassium channels may contribute to dilatation of cerebral arterioles during hypercapnia. Cerebral vasodilatation during hypercapnia is dependent in large part on production of nitric oxide.

摘要

背景与目的

这些实验的目的是研究高碳酸血症引起脑内血管舒张的机制。我们检验了这样一个假说，即高碳酸血症期间脑动脉的扩张依赖于ATP敏感性钾通道的激活和一氧化氮的形成。

方法

在麻醉的家兔中使用封闭颅窗测量脑动脉直径。测量动脉直径在局部应用乙酰胆碱和硝普钠时以及在两种全身高碳酸血症水平下的变化。

结果

动脉PCO₂从32±1mmHg（平均值±标准误）升至54±1mmHg和66±1mmHg时，脑动脉分别从93±3微米的对照直径扩张了25±3%和38±5%。格列本脲（1μmol/L），一种ATP敏感性钾通道抑制剂，使对低水平高碳酸血症的反应减弱（25±3%对16±4%，P<.05）。对高水平高碳酸血症的血管舒张不受格列本脲影响。对硝普钠的动脉直径增加不受格列本脲抑制。NG-硝基-L-精氨酸（300μmol/L），一种一氧化氮合酶抑制剂，完全抑制了对低水平高碳酸血症的脑动脉扩张，并在高水平高碳酸血症期间使血管舒张抑制了66%。

结论

因此，格列本脲敏感钾通道的激活可能有助于高碳酸血症期间脑动脉的扩张。高碳酸血症期间的脑血管舒张在很大程度上依赖于一氧化氮的产生。

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高碳酸血症时的脑血管舒张。格列本脲敏感性钾通道和一氧化氮的作用。

Cerebral vasodilation during hypercapnia. Role of glibenclamide-sensitive potassium channels and nitric oxide.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

METHODS

RESULTS

CONCLUSIONS

背景与目的

方法

结果

结论

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