5-羟色胺对麻醉大鼠舌下运动核及颏舌肌呼吸控制的影响

5-HT at hypoglossal motor nucleus and respiratory control of genioglossus muscle in anesthetized rats.

作者信息

Sood Sandeep, Liu Xia, Liu Hattie, Nolan Philip, Horner Richard L

机构信息

Department of Medicine, University of Toronto, Room 6368, Medical Sciences Building, 1 Kings College Circle, Toronto, Ont., Canada M5S 1A8.

出版信息

Respir Physiol Neurobiol. 2003 Nov 14;138(2-3):205-21. doi: 10.1016/j.resp.2003.07.001.

DOI:10.1016/j.resp.2003.07.001

PMID:14609511

Abstract

Serotonin (5-HT) from medullary raphe neurons excites hypoglossal motoneurons innervating genioglossus (GG) muscle. Since some raphe neurons also show increased activity in hypercapnia, we tested the hypothesis that serotonergic mechanisms at the hypoglossal motor nucleus (HMN) modulate GG activity and responses to CO2. Seventeen urethane-anesthetized, tracheotomized and vagotomized rats were studied. Microdialysis probes were used to deliver mianserin (5-HT receptor antagonist, 0 and 0.1 mM) or 5-HT (eight doses, 0-50 mM) to the HMN during room air or CO2-stimulated breathing. Mianserin decreased respiratory-related GG activity during room air and CO2-stimulated breathing (P<0.001), and also suppressed GG responses to CO2 (P=0.05). In contrast, GG activity was increased by 5-HT at the HMN, and was further increased in hypercapnia (P<0.02). However, 5-HT increased respiratory-related GG activity at levels lower (1 mM) than those eliciting tonic GG activity (10-30 mM 5-HT). The results show that 5-HT at the HMN contributes to the respiratory control of GG muscle.

摘要

来自延髓中缝神经元的5-羟色胺（5-HT）可兴奋支配颏舌肌（GG）的舌下运动神经元。由于一些中缝神经元在高碳酸血症时也表现出活性增加，我们检验了以下假设：舌下运动核（HMN）处的5-羟色胺能机制调节GG肌的活动及对二氧化碳的反应。对17只经乌拉坦麻醉、气管切开并切断迷走神经的大鼠进行了研究。在常氧或二氧化碳刺激呼吸期间，使用微透析探针将米安色林（5-HT受体拮抗剂，0和0.1 mM）或5-HT（8个剂量，0-50 mM）注入HMN。米安色林降低了常氧和二氧化碳刺激呼吸期间与呼吸相关的GG肌活动（P<0.001），并抑制了GG肌对二氧化碳的反应（P=0.05）。相反，HMN处的5-HT使GG肌活动增加，且在高碳酸血症时进一步增加（P<0.02）。然而，5-HT在低于引发GG肌紧张性活动水平（10-30 mM 5-HT）的浓度（1 mM）时增加与呼吸相关的GG肌活动。结果表明，HMN处的5-HT有助于对GG肌的呼吸控制。

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5-羟色胺对麻醉大鼠舌下运动核及颏舌肌呼吸控制的影响

5-HT at hypoglossal motor nucleus and respiratory control of genioglossus muscle in anesthetized rats.

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