缺氧时一氧化氮作为大鼠孤束核中的逆行信使。
Nitric oxide as a retrograde messenger in the nucleus tractus solitarii of rats during hypoxia.
作者信息
Ogawa H, Mizusawa A, Kikuchi Y, Hida W, Miki H, Shirato K
机构信息
First Department of Internal Medicine, Tohoku University School of Medicine, Sendai, Japan.
出版信息
J Physiol. 1995 Jul 15;486 ( Pt 2)(Pt 2):495-504. doi: 10.1113/jphysiol.1995.sp020828.
Abstract
- We examined the role of nitric oxide (NO) in respiratory regulation in the nucleus tractus solitarii (NTS), where L-glutamate release associated with peripheral chemoreceptor activation modulates the hypoxic ventilatory response. 2. Experiments were performed in unanaesthetized freely moving rats. First, the effects on the hypoxic ventilatory response of sodium nitroprusside (SNP, a NO donor) or NG-monomethyl-L-arginine (L-NMMA, a NO synthase inhibitor), microinjected into the NTS, were investigated. Second, using in vivo microdialysis, changes in extracellular L-glutamate during hypoxia were examined in the presence of L-NMMA. Third, the effect of L-NMMA on ventilatory augmentation by exogenous L-glutamate was examined. Furthermore, we measured extracellular L-citrulline concentration changes during hypoxia in the NTS to assess NO formation indirectly and also examined the effect of MK-801 (an NMDA receptor antagonist) on L-citrulline levels during hypoxia. 3. SNP increased ventilation during both normoxia and hypoxia. L-NMMA did not alter ventilation or L-glutamate levels during normoxia but significantly attenuated the hypoxic ventilatory response and the increase in L-glutamate during hypoxia. The inhibition by L-NMMA was blocked by L-arginine. The ventilatory augmentation by exogenous L-glutamate was attenuated by L-NMMA. L-Citrulline increased during hypoxia, and this increase was inhibited by MK-801. 4. We provide the first in vivo evidence that, in the NTS, NO works as a retrograde messenger in an L-glutamate-releasing positive feedback system contributing to the augmentation of ventilation during hypoxia.
摘要
- 我们研究了一氧化氮(NO)在孤束核(NTS)呼吸调节中的作用,在该区域,与外周化学感受器激活相关的L-谷氨酸释放可调节低氧通气反应。2. 实验在未麻醉的自由活动大鼠中进行。首先,研究了微量注射到NTS中的硝普钠(SNP,一种NO供体)或NG-单甲基-L-精氨酸(L-NMMA,一种NO合酶抑制剂)对低氧通气反应的影响。其次,使用体内微透析技术,在L-NMMA存在的情况下,检测低氧期间细胞外L-谷氨酸的变化。第三,研究了L-NMMA对外源性L-谷氨酸引起的通气增强的影响。此外,我们测量了NTS中低氧期间细胞外L-瓜氨酸浓度的变化,以间接评估NO的生成,还研究了MK-801(一种NMDA受体拮抗剂)对低氧期间L-瓜氨酸水平的影响。3. SNP在常氧和低氧期间均增加通气。L-NMMA在常氧期间不改变通气或L-谷氨酸水平,但显著减弱低氧通气反应以及低氧期间L-谷氨酸的增加。L-NMMA的抑制作用被L-精氨酸阻断。外源性L-谷氨酸引起的通气增强被L-NMMA减弱。低氧期间L-瓜氨酸增加,且这种增加被MK-801抑制。4. 我们提供了首个体内证据,即在NTS中,NO在一个L-谷氨酸释放的正反馈系统中作为逆行信使发挥作用,有助于低氧期间通气的增强。
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