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新生负鼠离体中枢神经系统中的呼吸节律

Respiratory rhythm in the isolated central nervous system of newborn opossum.

作者信息

Zou D J

机构信息

Department of Pharmacology, Universität Basel, Switzerland.

出版信息

J Exp Biol. 1994 Dec;197:201-13. doi: 10.1242/jeb.197.1.201.

DOI:10.1242/jeb.197.1.201
PMID:7852902
Abstract
  1. Respiratory activity was recorded from spinal ventral roots in the isolated intact central nervous system (CNS) of newborn opossum, Monodelphis domestica. These signals occurred in synchrony with movements of the ribs and the electromyogram (EMG) recorded from the intercostal muscles during inspiration. Rhythmical activity could be recorded for more than 6 h in acute preparations. 2. The rhythm-generating region was shown to be located in the lower brain stem by perfusing different CNS regions with medium containing 20 mmoll-1 Mg2+, which blocks synaptic transmission reversibly in the opossum CNS. The conclusion that respiration was generated by neurones in the lower brain stem was further confirmed by selective ablation of part of the CNS. 3. Recordings were made from 128 neurones in the respiratory region of the lower brain stem with activity related to the respiratory rhythm. They consisted of two inspiratory groups and two expiratory groups. In the groups of inspiratory units, recordings were made from 69 early inspiratory and 38 inspiratory units. In the groups of expiratory units, recordings were made from 17 post-inspiratory and 4 expiratory units. The sites of 22 respiratory neurones were marked in 4-day-old animals by injecting Pontamine Sky Blue. These neurones were distributed from 175 microns anterior to 525 microns posterior to the obex, from 225 to 450 microns lateral to the midline and from 175 to 425 microns deep to the ventral surface of the brain stem. 4. The respiratory rhythm recorded in the isolated CNS was influenced by pH and neurotransmitters. The respiratory rate decreased by about 26% at high pH (7.7) and increased by about 33% at low pH (7.1). Bath application of noradrenaline (30-100 mumol l-1) decreased the respiratory rate and increased the amplitude of the rhythmic bursts significantly. All these effects were reversible. 5. The results presented here indicate that the isolated intact CNS of newborn opossum offers advantages for exploring mechanisms responsible for generating the respiratory rhythm.
摘要
  1. 在新生负鼠(Monodelphis domestica)分离的完整中枢神经系统(CNS)中,从脊髓腹根记录呼吸活动。这些信号与肋骨运动同步出现,并且在吸气期间从肋间肌记录到的肌电图(EMG)也同步。在急性制备物中,节律性活动可以记录超过6小时。2. 通过用含有20 mmolL-1 Mg2+的介质灌注不同的中枢神经系统区域,表明节律产生区域位于脑桥下部,该介质在负鼠中枢神经系统中可逆地阻断突触传递。通过选择性切除部分中枢神经系统,进一步证实了呼吸是由脑桥下部的神经元产生的这一结论。3. 从脑桥下部呼吸区域的128个与呼吸节律相关的神经元进行记录。它们由两个吸气组和两个呼气组组成。在吸气神经元组中,从69个早期吸气神经元和38个吸气神经元进行记录。在呼气神经元组中,从17个吸气后神经元和4个呼气神经元进行记录。在4日龄动物中,通过注射滂胺天蓝标记了22个呼吸神经元的位置。这些神经元分布在闩前方175微米至后方525微米、中线外侧225至450微米以及脑干腹侧表面深175至425微米的范围内。4. 在分离的中枢神经系统中记录的呼吸节律受pH值和神经递质的影响。在高pH值(7.7)时,呼吸频率降低约26%,在低pH值(7.1)时,呼吸频率增加约33%。浴加去甲肾上腺素(30 - 100 μmolL-1)显著降低呼吸频率并增加节律性爆发的幅度。所有这些效应都是可逆的。5. 这里呈现的结果表明,新生负鼠分离的完整中枢神经系统为探索负责产生呼吸节律的机制提供了优势。

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引用本文的文献

1
Chemosensory and cholinergic stimulation of fictive respiration in isolated CNS of neonatal opossum.新生负鼠离体中枢神经系统中虚构呼吸的化学感受性和胆碱能刺激
J Physiol. 1997 Jun 1;501 ( Pt 2)(Pt 2):425-37. doi: 10.1111/j.1469-7793.1997.425bn.x.