Sellin L C, Molgó J, Törnquist K, Hansson B, Thesleff S
Division of Biophysics, Department of Physical Sciences, University of Oulu, FIN-90570 Oulu, Finland.
Pflugers Arch. 1996 Jan;431(3):325-34. doi: 10.1007/BF02207269.
Giant or slow-rising miniature end-plate potentials (GMEPPs) caused by vesicular release of acetylcholine (ACh) occur at any time in about 50% of mouse diaphragm neuro muscular junctions, but generally at frequencies less than 0.03 s-1. Their frequency is, unlike that of miniature end-plate potentials (MEPPs), not affected by nerve terminal depolarization. Unlike MEPPs and stimulus-evoked end-plate potentials, GMEPPs have a prolonged time-to-peak and show an increase in time-to-peak with amplitude. By using these differences in amplitude and time course, GMEPPs can be separated from MEPPs. In contrast to MEPPs, GMEPPs are not blocked by botulinum neurotoxin type A. GMEPPs have a greater temperature sensitivity than MEPPs, disappearing at temperatures below 15 degrees C. Long-term paralysis by botulinum toxin and certain drugs which inhibit protein kinase C or affect actin filament polymerization (cytochalasins) enhance the frequency of GMEPPs. End-plate current recordings show that similar postsynaptic ACh receptors are activated by MEPPs and GMEPPs. It is suggested that GMEPPs are not caused by mechanisms involved in regulated neurotransmitter release but are generated by constitutive secretion.
由乙酰胆碱(ACh)囊泡释放引起的巨大或缓慢上升的微小终板电位(GMEPPs),在约50%的小鼠膈肌神经肌肉接头处随时都会出现,但通常频率低于0.03 s-1。与微小终板电位(MEPPs)不同,其频率不受神经末梢去极化的影响。与MEPPs和刺激诱发的终板电位不同,GMEPPs的峰值时间延长,且峰值时间随幅度增加。利用幅度和时间过程上的这些差异,可以将GMEPPs与MEPPs区分开来。与MEPPs相反,GMEPPs不会被A型肉毒杆菌神经毒素阻断。GMEPPs比MEPPs具有更高的温度敏感性,在低于15摄氏度的温度下会消失。肉毒杆菌毒素和某些抑制蛋白激酶C或影响肌动蛋白丝聚合的药物(细胞松弛素)导致的长期麻痹会增加GMEPPs的频率。终板电流记录显示,MEPPs和GMEPPs激活的是相似的突触后ACh受体。有人提出,GMEPPs不是由参与调节神经递质释放的机制引起的,而是由组成性分泌产生的。
