Van der Kloot W
J Neurophysiol. 1987 May;57(5):1536-54. doi: 10.1152/jn.1987.57.5.1536.
Miniature end-plate potentials (MEPPs) are increased in size by pretreatment in a hypertonic Ringer. This paper is about the treatments that increase quantal size and the evidence that it occurs by packing more acetylcholine (ACh) in the quanta. Sartorius muscles were soaked for 2 h in a hypertonic Ringer, containing 200 mM NaCl in place of the usual 120 mM, and then returned to Ringer. In the hypertonic solution the miniature frequency was above 100/s. The treatment increased the size of the miniatures, recorded with an intracellular electrode after the return to usual Ringer, by a factor of approximately 2.5, compared with paired muscles kept in usual Ringer throughout. When the hypertonic solution was made with 200 mM sodium gluconate, after the return to usual Ringer, the miniatures increased in size by a factor of approximately 3.6. The large miniatures produced by the treatment fit a log normal probability distribution function, except for a variable small fraction of the largest events that may represent multiple releases. Miniatures recorded from untreated end plates fit better to a log normal distribution function than to a normal distribution function. The effects of the hypertonic treatments on the acetylcholine receptor (AChR) were accessed by measuring, after the return to usual Ringer, ACh noise, alpha-bungarotoxin binding, and the reversal potential. None of these measurements revealed significant differences between experimental and control preparations. The increases occurred when neostigmine was present in the hypertonic and usual solutions and when it was not, so changes in acetylcholinesterase (AChE) do not appear to be involved. Both the MEPPs and miniature end-plate currents, recorded with the two electrode voltage clamp, increased in size, so the increase is not owing to an rise in the input resistance of the muscle fiber. The increase in quantal size was prevented by including 1-10 microM AH5183 in the hypertonic solution. This drug blocks ACh uptake into synaptic vesicles. Therefore, it seems likely that the treatments act by increasing the quantity of ACh/quantum. Cyclohexamide (10 micrograms/ml), an inhibitor of protein synthesis, did not affect the increase in size caused by hypertonic solutions. Size increases were detected after 15 min in hypertonic solution. Most of the increase was complete after 1 h and there was no further increase after 2 h.(ABSTRACT TRUNCATED AT 400 WORDS)
通过在高渗任氏液中预处理,微小终板电位(MEPPs)的大小会增加。本文探讨了增加量子大小的处理方法以及其通过在量子中装入更多乙酰胆碱(ACh)而发生的证据。将缝匠肌在含有200 mM NaCl(代替通常的120 mM)的高渗任氏液中浸泡2小时,然后放回任氏液中。在高渗溶液中,微小频率高于100次/秒。与始终置于普通任氏液中的配对肌肉相比,放回普通任氏液后用细胞内电极记录,该处理使微小电位的大小增加了约2.5倍。当用200 mM葡萄糖酸钠配制高渗溶液时,放回普通任氏液后,微小电位大小增加了约3.6倍。该处理产生的大微小电位符合对数正态概率分布函数,但最大事件中有一小部分可变事件可能代表多次释放。从未经处理的终板记录的微小电位更符合对数正态分布函数而非正态分布函数。通过在放回普通任氏液后测量ACh噪声、α-银环蛇毒素结合和反转电位来评估高渗处理对乙酰胆碱受体(AChR)的影响。这些测量均未显示实验制剂和对照制剂之间存在显著差异。当高渗溶液和普通溶液中存在新斯的明时以及不存在新斯的明时,均出现了增加,因此似乎与乙酰胆碱酯酶(AChE)的变化无关。用双电极电压钳记录的MEPPs和微小终板电流大小均增加,因此增加并非由于肌肉纤维输入电阻的升高。通过在高渗溶液中加入1 - 10 microM AH5183可阻止量子大小的增加。该药物可阻断ACh摄取到突触小泡中。因此,这些处理似乎是通过增加每个量子中ACh的量来起作用的。环己酰亚胺(10微克/毫升),一种蛋白质合成抑制剂,并不影响高渗溶液引起的大小增加。在高渗溶液中15分钟后就检测到大小增加。大部分增加在1小时后完成,2小时后不再有进一步增加。(摘要截短至400字)
