Haimann C, Torri-Tarelli F, Fesce R, Ceccarelli B
J Cell Biol. 1985 Nov;101(5 Pt 1):1953-65. doi: 10.1083/jcb.101.5.1953.
Ouabain (0.1 and 0.05 mM) was applied to frog cutaneous pectoris nerve-muscle preparations bathed in modified Ringer's solution containing either 1.8 mM Ca2+ (and 4 mM Mg2+) or no added Ca2+ (4 mM Mg2+ and 1 mM EGTA). During the intense quantal release of acetylcholine (ACh) induced by ouabain, the parameters of the miniature endplate potentials (mepps) were deduced from the variance, skew, and power spectra of the endplate recordings by applying a recently described modification of classical fluctuation analysis. Often the high frequency of mepps is not stationary; therefore, the signal was high-pass filtered (time constant of the resistance-capacitance filter of 2 ms) to remove the errors introduced by nonstationarity. When ouabain was applied in the presence of Ca2+, mepp frequency started to rise exponentially after a lag of 1.5-2 h, reached an average peak frequency of 1,300/s in approximately 30 min, and then suddenly subsided to low level (10/s). In Ca2+-free solution, after a shorter lag (1-1.5 h), mepp frequency rose to peak rate of 700/s in approximately 20 min and then gradually subsided. In spite of the different time course of secretion in the two experimental conditions, the cumulative quantal release was not significantly different (7.4 +/- 1.3 X 10(5) in Ca2+-containing and 8.8 +/- 2.7 X 10(5) in Ca2+-free solutions). 60 min after the peak secretion, the muscles were fixed for observation in the electron microscope. Morphometric analysis on micrographs of neuromuscular junctions revealed in both cases a profound depletion of synaptic vesicles and deep infoldings of presynaptic membrane. This rapid depletion and the lack of uptake of horseradish peroxidase suggest that ouabain impairs the recycling process that tends to conserve the vesicle population during intense secretion of neurotransmitter. The good correlation observed between the reduction in the store of synaptic vesicles and the total number of quanta of ACh secreted in the absence of a vigorous membrane recycling strongly supports the view that the secretion of a quantum of ACh requires the fusion of a synaptic vesicle with the axolemma.
哇巴因(0.1和0.05 mM)应用于浸泡在含有1.8 mM Ca2+(和4 mM Mg2+)或未添加Ca2+(4 mM Mg2+和1 mM乙二醇双四乙酸)的改良林格氏溶液中的青蛙胸皮神经 - 肌肉标本。在哇巴因诱导的乙酰胆碱(ACh)强烈量子释放过程中,通过应用最近描述的经典波动分析的改进方法,从终板记录的方差、偏度和功率谱推导出微小终板电位(mepps)的参数。通常,mepps的高频不稳定;因此,对信号进行高通滤波(电阻 - 电容滤波器的时间常数为2 ms)以消除由非平稳性引入的误差。当在有Ca2+存在的情况下应用哇巴因时,mepp频率在滞后1.5 - 2小时后开始呈指数上升,在大约30分钟内达到平均峰值频率1300/秒,然后突然降至低水平(10/秒)。在无Ca2+溶液中,经过较短的滞后(1 - 1.5小时),mepp频率在大约20分钟内升至峰值速率700/秒,然后逐渐下降。尽管在两种实验条件下分泌的时间进程不同,但累积量子释放没有显著差异(含Ca2+溶液中为7.4±1.3×10(5),无Ca2+溶液中为8.8±2.7×10(5))。分泌峰值后60分钟,将肌肉固定用于电子显微镜观察。对神经肌肉接头显微照片的形态计量分析在两种情况下均显示突触小泡严重耗竭和突触前膜深度内陷。这种快速耗竭以及辣根过氧化物酶摄取的缺乏表明哇巴因损害了在神经递质强烈分泌期间倾向于保存小泡群体的再循环过程。在缺乏活跃的膜再循环的情况下,观察到的突触小泡储存减少与ACh分泌的量子总数之间的良好相关性有力地支持了一个量子ACh的分泌需要突触小泡与轴突膜融合的观点。