一氧化氮在人体局部冷却引起的皮肤血管收缩反应中的作用。
The involvement of nitric oxide in the cutaneous vasoconstrictor response to local cooling in humans.
作者信息
Hodges Gary J, Zhao Kun, Kosiba Wojciech A, Johnson John M
机构信息
Department of Physiology-MSC 7756, 7703 Floyd Curl Drive, San Antonio, TX 78229-3900, USA.
出版信息
J Physiol. 2006 Aug 1;574(Pt 3):849-57. doi: 10.1113/jphysiol.2006.109884. Epub 2006 May 25.
Cutaneous vascular conductance (CVC) declines in response to local cooling (LC). Previous work indicates that at least part of the vasoconstrictor response to LC may be through an inhibitory effect on nitric oxide synthase (NOS) activity. In this study we further tested that notion. A total of eight (6 male, 2 female) subjects participated (Part 1 n = 7; Part 2 n = 5, 4 of whom participated in Part 1). Skin blood flow was monitored by laser-Doppler flowmetry. Control of local skin and body temperatures was achieved with Peltier cooler/heater probe holders and water perfused suits, respectively. Microdialysis fibres were inserted aseptically. Saline, L-NAME (20 mM; to inhibit NOS activity) and sodium nitroprusside (SNP 10 microM) were infused by microdialysis. Bretylium tosylate (BT), to block adrenergic function, was administered by iontophoresis. CVC was calculated from blood flow and blood pressure. Part 1 was designed to determine the relative roles of the NO and the adrenergic systems. The infusion of L-NAME elicited a 35 +/- 4% decrease in CVC at the L-NAME and BT + L-NAME sites (P < 0.05); subsequent slow LC (34-24 degrees C) for 35 min caused a significant (P < 0.05) decrease in CVC at control sites (68 +/- 4%) and at the BT treated sites (39 +/- 5%). LC caused a further 23 +/- 5% of initial baseline decrease in CVC at the L-NAME treated sites (P < 0.05). Importantly, CVC at the BT + L-NAME sites was unaffected by LC (P > 0.05). Part 2 was designed to test whether LC influences were specific to the NOS enzymes. Two sites were pretreated with both BT and L-NAME. After 50 min, SNP was added as an NO donor to restore baseline CVC at one site. The same LC process as in Part 1 was applied. There was a 24 +/- 10% decrease (P < 0.05) in CVC at sites with baseline CVC restored, while, as in Part 1, there was no change (P > 0.05) at sites treated with BT + L-NAME only. These data suggest that the vasoconstriction with slow LC is due to a combination of increased noradrenaline release and decreased activity of both NOS per se and of process(es) downstream of NOS.
皮肤血管传导性(CVC)会因局部冷却(LC)而下降。先前的研究表明,对LC的血管收缩反应至少部分可能是通过对一氧化氮合酶(NOS)活性的抑制作用。在本研究中,我们进一步验证了这一观点。共有8名受试者(6名男性,2名女性)参与实验(第一部分n = 7;第二部分n = 5,其中4人参与了第一部分)。通过激光多普勒血流仪监测皮肤血流量。分别使用珀尔帖冷却器/加热器探头支架和水灌注服来控制局部皮肤温度和身体温度。无菌插入微透析纤维。通过微透析注入生理盐水、L- NAME(20 mM;抑制NOS活性)和硝普钠(SNP 10 microM)。通过离子电渗疗法给予溴苄铵(BT)以阻断肾上腺素能功能。根据血流量和血压计算CVC。第一部分旨在确定NO和肾上腺素能系统的相对作用。在L- NAME和BT + L- NAME部位注入L- NAME后,CVC下降了35±4%(P < 0.05);随后进行35分钟的缓慢LC(34 - 24摄氏度),对照组部位(68±4%)和BT处理部位(39±5%)的CVC显著下降(P < 0.05)。在L- NAME处理部位,LC使CVC在初始基线基础上进一步下降23±5%(P < 0.05)。重要的是,BT + L- NAME部位的CVC不受LC影响(P > 0.05)。第二部分旨在测试LC的影响是否对NOS酶具有特异性。两个部位先用BT和L- NAME预处理。50分钟后,在一个部位添加SNP作为NO供体以恢复基线CVC。应用与第一部分相同的LC过程。在恢复基线CVC的部位,CVC下降了24±10%(P < 0.05),而与第一部分一样,仅用BT + L- NAME处理的部位没有变化(P > 0.05)。这些数据表明,缓慢LC引起的血管收缩是由于去甲肾上腺素释放增加以及NOS本身及其下游过程的活性降低共同作用的结果。
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