猫膀胱副交感神经节中的突触传递。
Synaptic transmission in parasympathetic ganglia in the urinary bladder of the cat.
作者信息
DeGroat W C, Saum W R
出版信息
J Physiol. 1976 Mar;256(1):137-58. doi: 10.1113/jphysiol.1976.sp011316.
Abstract
- Electrophysiological techniques were used to study the sacral para-sympathetic input to pelvic ganglia located on the surface of the urinary bladder of the cat. 2. Synaptic transmission in pelvic ganglia was mediated primarily via nicotinic receptors although muscarinic excitatory receptors were present. 3. The most prominent characteristic of transmission in pelvic ganglia was the marked recruitment elicited by increasing frequencies of preganglionic nerve stimulation. Post-ganglionic action potentials were of low amplitude at low frequencies of stimulation (0-1-0-5c/s), but commonly increased to five to twenty times control amplitudes during continuous stimulation at frequencies between 5 and 10c/s. Thus, it is proposed that vesical ganglia may act as "filters" in the micturition pathway; blocking the excitatory input to the bladder when intravesical pressure and parasympathetic firing is low and facilitating the neural input to the bladder during micturition when preganglionic activity is high. 4. Information was also obtained about the characteristics of the parasympathetic post-ganglionic neurones innervating the bladder. Stimulation of the preganglionic fibres in the pelvic nerve elicited a bimodal contraction consisting of an initial phasic response, which was atropine-resistant and a tonic response which was blocked by atropine. This suggests that two types of neurones, cholinergic and non-cholinergic, may mediate the sacral input to the vesical smooth muscle.
摘要
- 运用电生理技术研究了猫膀胱表面盆腔神经节的骶副交感神经输入。2. 盆腔神经节中的突触传递主要通过烟碱受体介导,尽管也存在毒蕈碱兴奋性受体。3. 盆腔神经节传递的最显著特征是节前神经刺激频率增加时引发的明显募集现象。在低频刺激(0.1 - 0.5次/秒)时,节后动作电位幅度较低,但在5至10次/秒的频率持续刺激期间,通常会增加到对照幅度的五至二十倍。因此,有人提出膀胱神经节可能在排尿途径中充当“过滤器”;当膀胱内压和副交感神经放电较低时,阻断对膀胱的兴奋性输入,而在排尿期间,当前节活动较高时,促进对膀胱的神经输入。4. 还获得了有关支配膀胱的副交感节后神经元特征的信息。刺激盆神经中的节前纤维会引发一种双峰收缩,包括一个初始的相位反应,该反应对阿托品有抗性,以及一个被阿托品阻断的紧张性反应。这表明胆碱能和非胆碱能两种类型的神经元可能介导骶部对膀胱平滑肌的输入。
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