交感神经末梢去甲肾上腺素摄取的电生理分析
An electrophysiological analysis of the uptake of noradrenaline at sympathetic nerve terminals.
作者信息
Bennett M R
出版信息
J Physiol. 1973 Mar;229(2):533-46. doi: 10.1113/jphysiol.1973.sp010152.
Abstract
- An electrophysiological analysis has been made of the uptake of NAd in the sympathetic nerve terminals of the isolated vas deferens of the mouse. The amplitude of the excitatory junction potentials (e.j.p.s) recorded intracellularly in smooth muscle cells was taken as a measure of the NAd output per impulse from the terminals of sympathetic axons.2. Neuronal uptake blockers (desipramine and cocaine) greatly depressed the amplitude of all e.j.p.s after the first in a short train (< 100) at high frequencies (>/= 1 Hz).3. Blocking neuronal uptake did not affect the time course of decline in amplitude of the e.j.p. during long trains of stimulation over several minutes, apart from the immediate depression in the e.j.p. following the first few impulses.4. The time course of decline of the e.j.p. amplitude during continual stimulation, when both neuronal uptake and synthesis was blocked, was similar to that when only synthesis was blocked, apart from the immediate depression following the first few impulses.5. Phenoxybenzamine reversed the normal depression in e.j.p. amplitude observed at high frequencies (>/= 1 Hz) to facilitation. This facilitation lasted for several minutes of high frequency stimulation.6. A model has been proposed of the sympathetic nerve terminal, in which NAd is released by each nerve impulse in a train from a small pool in the nerve terminal, which is principally replenished by uptake of the NAd released by the immediately preceding impulses in the train. The pool is replenished to a less extent by transmitter located in two stores in the terminal which are in turn replenished by transmitter synthesis.
摘要
对小鼠离体输精管交感神经末梢中去甲肾上腺素(NAd)的摄取进行了电生理分析。平滑肌细胞内记录的兴奋性接头电位(e.j.p.s)的幅度被用作衡量交感神经轴突末梢每冲动释放NAd量的指标。
神经元摄取阻滞剂(地昔帕明和可卡因)在高频(≥1Hz)短串刺激(<100次)中的第一个刺激后,极大地降低了所有e.j.p.s的幅度。
阻断神经元摄取除了在最初几个冲动后立即降低e.j.p.幅度外,在持续几分钟的长时间刺激过程中,并不影响e.j.p.幅度下降的时间进程。
在持续刺激期间,当神经元摄取和合成均被阻断时,e.j.p.幅度下降的时间进程与仅阻断合成时相似,除了最初几个冲动后的立即降低。
酚苄明将高频(≥1Hz)时观察到的e.j.p.幅度的正常降低转变为增强。这种增强在高频刺激的几分钟内持续存在。
提出了一个交感神经末梢模型,其中在一串神经冲动中,每个神经冲动从神经末梢中的一个小池中释放NAd,该小池主要通过摄取该串中紧接在前的冲动释放的NAd来补充。该小池在较小程度上由位于末梢两个储存库中的递质补充,而这两个储存库又由递质合成补充。
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