KATP通道激活可在人体内诱导内皮细胞的缺血预处理。

KATP channel activation induces ischemic preconditioning of the endothelium in humans in vivo.

作者信息

Broadhead M W, Kharbanda R K, Peters M J, MacAllister R J

机构信息

Centre for Clinical Pharmacology, University College London, London, United Kingdom.

出版信息

Circulation. 2004 Oct 12;110(15):2077-82. doi: 10.1161/01.CIR.0000144304.91010.F0. Epub 2004 Oct 4.

DOI:10.1161/01.CIR.0000144304.91010.F0

PMID:15466634

Abstract

BACKGROUND

Endothelial dysfunction contributes to ischemia-reperfusion injury (IRI) and is reduced by ischemic preconditioning (IPC). IPC may involve activation of ATP-sensitive potassium channels (K(ATP)). We determined whether modulation of K(ATP) channels occurs in endothelial IPC in humans.

METHODS AND RESULTS

IRI of the forearm was induced by inflating a blood pressure cuff to 200 mm Hg for 20 minutes in healthy volunteers. K(ATP) activation was modulated by intra-arterial glibenclamide (blocker) and diazoxide (opener). Endothelial function (response to intra-arterial acetylcholine) was assessed with forearm plethysmography before and after (1) 15-minute reperfusion, (2) IRI preceded by IPC (3 five-minute periods of ischemia), (3) IRI preceded by IPC with glibenclamide, (4) IPC followed by glibenclamide before IRI, (5) IRI preceded by diazoxide, and (6) IRI preceded by coinfusion of glibenclamide with diazoxide. IRI caused endothelial dysfunction (P=0.002), which IPC prevented (P=0.40). Glibenclamide abolished IPC when given contemporaneously with (P=0.003) or during IRI (P=0.0005). Diazoxide prevented endothelial dysfunction after IRI (P=0.68) but not when coinfused with glibenclamide.

CONCLUSIONS

Glibenclamide abolishes and diazoxide mimics endothelial IPC in humans. The time course of the effect of glibenclamide suggests involvement of K(ATP) channels as effectors of endothelial IPC in vivo. These data may have implications for understanding the therapeutic role of agents that modulate K(ATP) channel function.

摘要

背景

内皮功能障碍会导致缺血再灌注损伤（IRI），而缺血预处理（IPC）可减轻这种损伤。IPC可能涉及ATP敏感性钾通道（K(ATP)）的激活。我们确定了在人类内皮IPC中是否发生K(ATP)通道的调节。

方法与结果

在健康志愿者中，通过将血压袖带充气至200 mmHg并持续20分钟来诱导前臂IRI。K(ATP)的激活通过动脉内给予格列本脲（阻滞剂）和二氮嗪（开放剂）来调节。在以下情况前后，用前臂体积描记法评估内皮功能（对动脉内乙酰胆碱的反应）：（1）15分钟再灌注后；（2）IPC预处理后的IRI（3个5分钟的缺血期）；（3）格列本脲预处理后的IPC后的IRI；（4）IRI前先给予格列本脲的IPC；（5）二氮嗪预处理后的IRI；（6）格列本脲与二氮嗪联合输注预处理后的IRI。IRI导致内皮功能障碍（P = 0.002），而IPC可预防（P = 0.40）。与IPC同时给予（P = 0.003）或在IRI期间给予（P = 0.0005）时，格列本脲可消除IPC的作用。二氮嗪可预防IRI后的内皮功能障碍（P = 0.68），但与格列本脲联合输注时则无效。

结论

格列本脲可消除，而二氮嗪可模拟人类内皮IPC。格列本脲作用的时间进程表明K(ATP)通道作为体内内皮IPC的效应器参与其中。这些数据可能对理解调节K(ATP)通道功能的药物的治疗作用具有启示意义。

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KATP通道激活可在人体内诱导内皮细胞的缺血预处理。

KATP channel activation induces ischemic preconditioning of the endothelium in humans in vivo.

作者信息

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法与结果

结论

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