肝脏中多种细胞内区室协同作用,促使甘油三硝酸酯释放一氧化氮。
Various intracellular compartments cooperate in the release of nitric oxide from glycerol trinitrate in liver.
作者信息
Kozlov Andrey V, Dietrich Barbara, Nohl Hans
机构信息
Department of Pharmacology and Toxicology/Institute for Applied Botany, University of Veterinary Medicine, Vienna, Austria.
出版信息
Br J Pharmacol. 2003 Jul;139(5):989-97. doi: 10.1038/sj.bjp.0705323.
Abstract
- Glycerol trinitrate (GTN) has been used in therapy for more than 100 years. Biological effects of GTN are due to the release of the biomediator nitric oxide (NO). However, the mechanism by which GTN provides NO, in particular in liver, is still unknown. In this study, we provide experimental evidence showing that cytoplasm, endoplasmic reticulum, and mitochondria are required for the release of NO from GTN in the liver. 2. NO and nitrite (NO(2)(-)) were determined using low-temperature electron paramagnetic resonance and the Griess reaction, respectively. 3. The first step of GTN biotransformation is the release of NO(2)(-). This step is performed in cytoplasm and catalyzed by glutathione-S-transferase. The second step is the rate-limiting step where NO(2)(-) is slowly reduced to NO. This is mainly catalyzed by cytochrome P-450. The second phase can be significantly enhanced by decreasing the pH value, a situation which occurs during ischemia. At high NADPH concentrations exceeding physiological values, cytochrome P-450 catalyzes GTN biotransformation without the involvement of cytoplasmic glutathione-S-transferase. 4. In conclusion, our data show that NO(2)(-) derived from the first step of biotransformation of GTN in the liver is the precursor of NO but not a product of NO degradation; consequently, NO(2)(-) levels are not likely to be a marker of NO release from GTN as earlier suggested.
摘要
- 硝酸甘油(GTN)已用于治疗100多年。GTN的生物学效应归因于生物介质一氧化氮(NO)的释放。然而,GTN产生NO的机制,尤其是在肝脏中的机制,仍然未知。在本研究中,我们提供了实验证据,表明肝脏中GTN释放NO需要细胞质、内质网和线粒体。2. 分别使用低温电子顺磁共振和格里斯反应测定NO和亚硝酸盐(NO₂⁻)。3. GTN生物转化的第一步是释放NO₂⁻。这一步在细胞质中进行,由谷胱甘肽-S-转移酶催化。第二步是限速步骤,其中NO₂⁻缓慢还原为NO。这主要由细胞色素P-450催化。通过降低pH值可显著增强第二阶段,这种情况在缺血期间会发生。在超过生理值的高NADPH浓度下,细胞色素P-450催化GTN生物转化,而无需细胞质谷胱甘肽-S-转移酶的参与。4. 总之,我们的数据表明,肝脏中GTN生物转化第一步产生的NO₂⁻是NO的前体,而非NO降解的产物;因此,NO₂⁻水平不太可能如先前所认为的那样是GTN释放NO的标志物。
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