反应性充血通过激活人体内的内向整流钾通道和钠钾ATP酶而发生。
Reactive hyperemia occurs via activation of inwardly rectifying potassium channels and Na+/K+-ATPase in humans.
作者信息
Crecelius Anne R, Richards Jennifer C, Luckasen Gary J, Larson Dennis G, Dinenno Frank A
机构信息
From the Human Cardiovascular Physiology Laboratory, Department of Health and Exercise Science, and Vascular Physiology Research Group, Department of Biomedical Sciences, Colorado State University, Fort Collins, CO; and Medical Center of the Rockies Foundation, University of Colorado Health, Loveland, CO.
出版信息
Circ Res. 2013 Sep 27;113(8):1023-32. doi: 10.1161/CIRCRESAHA.113.301675. Epub 2013 Aug 12.
RATIONALE
Reactive hyperemia (RH) in the forearm circulation is an important marker of cardiovascular health, yet the underlying vasodilator signaling pathways are controversial and thus remain unclear.
OBJECTIVE
We hypothesized that RH occurs via activation of inwardly rectifying potassium (KIR) channels and Na(+)/K(+)-ATPase and is largely independent of the combined production of the endothelial autocoids nitric oxide (NO) and prostaglandins in young healthy humans.
METHODS AND RESULTS
In 24 (23±1 years) subjects, we performed RH trials by measuring forearm blood flow (FBF; venous occlusion plethysmography) after 5 minutes of arterial occlusion. In protocol 1, we studied 2 groups of 8 subjects and assessed RH in the following conditions. For group 1, we studied control (saline), KIR channel inhibition (BaCl2), combined inhibition of KIR channels and Na(+)/K(+)-ATPase (BaCl2 and ouabain, respectively), and combined inhibition of KIR channels, Na(+)/K(+)-ATPase, NO, and prostaglandins (BaCl2, ouabain, L-NMMA [N(G)-monomethyl-L-arginine] and ketorolac, respectively). Group 2 received ouabain rather than BaCl2 in the second trial. In protocol 2 (n=8), the following 3 RH trials were performed: control; L-NMMA plus ketorolac; and L-NMMA plus ketorolac plus BaCl2 plus ouabain. All infusions were intra-arterial (brachial). Compared with control, BaCl2 significantly reduced peak FBF (-50±6%; P<0.05), whereas ouabain and L-NMMA plus ketorolac did not. Total FBF (area under the curve) was attenuated by BaCl2 (-61±3%) and ouabain (-44±12%) alone, and this effect was enhanced when combined (-87±4%), nearly abolishing RH. L-NMMA plus ketorolac did not impact total RH FBF before or after administration of BaCl2 plus ouabain.
CONCLUSIONS
Activation of KIR channels is the primary determinant of peak RH, whereas activation of both KIR channels and Na(+)/K(+)-ATPase explains nearly all of the total (AUC) RH in humans.
理论依据
前臂循环中的反应性充血(RH)是心血管健康的一个重要标志,但其潜在的血管舒张信号通路存在争议,因此仍不清楚。
目的
我们假设RH是通过内向整流钾(KIR)通道和钠钾ATP酶的激活而发生的,并且在很大程度上独立于年轻健康人体内内皮自分泌因子一氧化氮(NO)和前列腺素的联合产生。
方法与结果
在24名(23±1岁)受试者中,我们通过测量动脉闭塞5分钟后的前臂血流量(FBF;静脉闭塞体积描记法)进行了RH试验。在方案1中,我们研究了2组,每组8名受试者,并在以下条件下评估RH。对于第1组,我们研究了对照组(生理盐水)、KIR通道抑制(氯化钡)、KIR通道和钠钾ATP酶的联合抑制(分别为氯化钡和哇巴因)以及KIR通道、钠钾ATP酶、NO和前列腺素的联合抑制(分别为氯化钡、哇巴因、L-NMMA [N(G)-单甲基-L-精氨酸] 和酮咯酸)。第2组在第二次试验中接受哇巴因而不是氯化钡。在方案2(n = 8)中,进行了以下3次RH试验:对照组;L-NMMA加酮咯酸;L-NMMA加酮咯酸加氯化钡加哇巴因。所有输注均为动脉内(肱动脉)注射。与对照组相比,氯化钡显著降低了峰值FBF(-50±6%;P<0.05),而哇巴因和L-NMMA加酮咯酸则没有。单独使用氯化钡(-61±3%)和哇巴因(-44±12%)可使总FBF(曲线下面积)降低,联合使用时这种效应增强(-87±4%),几乎消除了RH。在给予氯化钡加哇巴因之前或之后,L-NMMA加酮咯酸对总RH FBF均无影响。
结论
KIR通道的激活是峰值RH的主要决定因素,而KIR通道和钠钾ATP酶的激活几乎解释了人类所有的总(AUC)RH。
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