人隐静脉中一氧化氮与前列环素合成的相互抑制作用
Reciprocal inhibition of nitric oxide and prostacyclin synthesis in human saphenous vein.
作者信息
Barker J E, Bakhle Y S, Anderson J, Treasure T, Piper P J
机构信息
Department of Pharmacology, Royal College of Surgeons of England, London.
出版信息
Br J Pharmacol. 1996 Jun;118(3):643-8. doi: 10.1111/j.1476-5381.1996.tb15449.x.
Abstract
- Angiotensin II (AII) causes contraction of isolated rings of human saphenous vein, responses that are attenuated by the presence of functional endothelium. In this study, we have investigated the mechanisms controlling the release by AII of two endothelial-derived vasorelaxants, prostacyclin (PGI2) and nitric oxide (NO). 2. Myotropic and biochemical changes were measured in response to AII. The biochemical responses measured were the output of PGI2 (as 6-oxo-PGF1 alpha) and of NO (as cyclic GMP). Inhibitors of cyclo-oxygenase (COX; piroxicam) or NO synthase (NOS; L-NAME), were added to the system to determine the influence of endogenous prostaglandins and NO on both myotropic and biochemical responses. Furthermore, to mimic the effects of endogenous, PGI2 or NO, exogenous forms of these relaxants were added, during inhibition of their endogenous release. 3. Contractions of the rings of saphenous vein in response to AII (1-100 nM) were unaffected by treatment with either piroxicam (5 microM) or L-NAME (200 microM) individually. However, when these two inhibitors were used together, there was an increase in the contractions in response to AII. 4. Biochemical analyses revealed that during stimulation by AII, levels of PGI2 and NO were enhanced when synthesis of the other vasodilator was inhibited, suggesting that endogenous NO inhibits PGI2 synthesis and endogenous, PGI2 or another vasorelaxant PG can inhibit NO synthesis. 5. Exogenous PGI2 (as iloprost) or NO (from glyceryl trinitrate) inhibited the increased output of endogenous NO or PGI2 respectively. 6. These results demonstrate the presence, in human saphenous vein, of a mechanism which ensures that levels of vasodilatation are maintained through a compensatory increase in one relaxant agonist when output of the other is decreased. If present in vivo such a mechanism would be important in maintaining saphenous vein graft patency as both PGI2 and NO are not only vasodilators, but inhibit platelet aggregation and myoinitimal hyperplasia, processes implicated in degeneration of graft function.
摘要
- 血管紧张素II(AII)可使离体的人隐静脉环收缩,而功能性内皮的存在会减弱这种反应。在本研究中,我们研究了AII释放两种内皮源性血管舒张剂前列环素(PGI2)和一氧化氮(NO)的调控机制。2. 检测了对AII产生反应时的肌性变化和生化变化。所检测的生化反应是PGI2(以6-氧代-PGF1α表示)和NO(以环磷酸鸟苷表示)的释放量。向系统中加入环氧化酶(COX;吡罗昔康)或一氧化氮合酶(NOS;L- NAME)抑制剂,以确定内源性前列腺素和NO对肌性反应和生化反应的影响。此外,为模拟内源性PGI2或NO的作用,在抑制它们的内源性释放期间加入这些舒张剂的外源性形式。3. 吡罗昔康(5μM)或L- NAME(200μM)单独处理对AII(1 - 100 nM)引起的隐静脉环收缩没有影响。然而,当这两种抑制剂一起使用时,对AII的收缩反应增强。4. 生化分析表明,在AII刺激期间,当另一种血管舒张剂的合成被抑制时,PGI2和NO的水平会升高,这表明内源性NO抑制PGI2合成,而内源性PGI2或另一种血管舒张性前列腺素可抑制NO合成。5. 外源性PGI2(以伊洛前列素表示)或NO(来自硝酸甘油)分别抑制内源性NO或PGI2释放量的增加。6. 这些结果表明,在人隐静脉中存在一种机制,当另一种舒张剂的释放量减少时,可通过一种舒张剂激动剂的代偿性增加来确保血管舒张水平得以维持。如果这种机制存在于体内,那么它对于维持隐静脉移植血管的通畅很重要,因为PGI2和NO不仅是血管舒张剂,还能抑制血小板聚集和肌内膜增生,而这些过程与移植血管功能退化有关。
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