在Sprague-Dawley大鼠脑室内注射屈大麻酚(一种大麻素受体激动剂)不能减轻5 -羟色胺诱导的呼吸暂停。

Michael W Calik, David W Carley
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引用次数: 15

摘要

背景:有证据表明迷走神经活动可能在睡眠呼吸暂停诱导中起作用。在麻醉大鼠中,将大麻素(CB)受体激动剂屈大麻酚注射到结节神经节中可减弱反射性呼吸暂停并增加颏舌肌活性,并且反射性呼吸暂停的减弱可通过大麻素1型和/或2型受体拮抗剂进行全身预处理而阻断。然而,尚不清楚屈大麻酚是否对中枢神经系统有类似的作用;CB受体广泛分布于大脑中,特别是在呼吸和上呼吸道激活的重要神经回路中。在这里,我们研究了脑室内注射屈大麻酚对5-羟色胺(5-HT)诱导的呼吸暂停的影响。方法:成年雄性sd大鼠麻醉后,用双侧电极监测颏舌肌肌电图,用压电应变仪监测呼吸方式。将血清素静脉注入股静脉诱导反射性呼吸暂停。基线记录后,将大鼠置于立体定向装置中。行单侧截骨术,以便进入右侧脑室进行注射,并小心地取出硬脑膜。右侧脑室注射屈大麻酚(100、10、1、0.1 μg/3 μl DMSO)或对照(3 μl DMSO),重复5-HT输注。数据(平均值±SEM)采用重复/固定测量的混合模型分析。结果:ICV注射组与ICV载具对照组在5- ht诱导的呼吸暂停、呼吸持续时间、呼吸不稳定方面无主要影响。此外,注射ICV大麻酚组与注射ICV载体对照组间对大鼠的肌内舌肌活动无明显影响。结论:我们的数据显示,ICV注射曲大麻酚不会降低5- ht诱导的呼吸暂停,也不会增加颏舌肌活性。这与已发表的关于屈大麻酚通过迷走神经影响呼吸暂停的研究结果相反。我们的研究结果表明,屈大麻酚对反射性呼吸暂停的影响是通过外周介导的迷走神经活动的抑制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Intracerebroventricular injections of dronabinol, a cannabinoid receptor agonist, does not attenuate serotonin-induced apnea in Sprague-Dawley rats.

Intracerebroventricular injections of dronabinol, a cannabinoid receptor agonist, does not attenuate serotonin-induced apnea in Sprague-Dawley rats.

Intracerebroventricular injections of dronabinol, a cannabinoid receptor agonist, does not attenuate serotonin-induced apnea in Sprague-Dawley rats.

Intracerebroventricular injections of dronabinol, a cannabinoid receptor agonist, does not attenuate serotonin-induced apnea in Sprague-Dawley rats.

Background: Evidence suggests that vagal nerve activity may play a role in sleep apnea induction. In anesthetized rats, dronabinol, a cannabinoid (CB) receptor agonist, injected into the nodose ganglia attenuates reflex apnea and increases genioglossus activity, and reflex apnea attenuation is blocked by systemic pre-treatment with cannabinoid type 1 and/or type 2 receptor antagonists. However, it is unclear whether dronabinol has similar effects in the central nervous system; CB receptors are widely distributed in the brain, especially on neuronal circuitry important for respiration and upper airway activation. Here, we examine the effects of intracerebroventricular (ICV) injection of dronabinol on serotonin (5-HT)-induced apnea.

Methods: Adult male Sprague-Dawley rats were anesthetized and instrumented with bilateral electrodes to monitor genioglossi EMG and with a piezoelectric strain gauge to monitor respiratory pattern. Serotonin was intravenously infused into a femoral vein to induce reflex apnea. After baseline recordings, rats were placed in a stereotaxic apparatus. A unilateral osteotomy was made to allow access for injection to the right lateral ventricle, and the dura were carefully removed. Dronabinol (100, 10, 1, or 0.1 μg/3 μl DMSO) or control (3 μl DMSO) was injected into the right lateral ventricle and 5-HT infusion was repeated. Data (mean ± SEM) were analyzed using a mixed model analysis with a repeated/fixed measure.

Results: There was no main effect in 5-HT-induced apnea or breath duration, or in breath instability, between ICV dronabinol injected and ICV vehicle control injected groups. Moreover, there was no main effect in phasic or tonic genioglossus activity between ICV dronabinol injected and ICV vehicle control injected groups.

Conclusion: Our data show that ICV injection of dronabinol did not decrease 5-HT-induced apneas, and did not increase genioglossus activity. This in contrast to published results of dronabinol's effect on apnea via the vagus nerve. Our results suggest that the effects of dronabinol on reflex apneas are peripherally mediated via suppression of vagal nerve activity.

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