重复性刺激对青蛙神经肌肉接头处递质释放强直后增强的双重作用。
A dual effect of repetitive stimulation on post-tetanic potentiation of transmitter release at the frog neuromuscular junction.
作者信息
Magleby K L, Zengel J E
出版信息
J Physiol. 1975 Feb;245(1):163-82. doi: 10.1113/jphysiol.1975.sp010839.
Abstract
- End-plate potentials (e.p.p.s) were recorded with a surface electrode from frog neuromuscular junctions blocked with high Mg and low Ca to study post-tetanic potentiation(potentiation). 2. Potentiation is found to decay exponentially over most of its time course. 3. The time constant tsu(H) characterizing this exponential decay is a function of the previous history (frequency and duration) of stimulation. For example, tsu(H) increased from about 20 sec following a few impulses to over 70 sec following more than 1000 impulses. 4. A new method is presented to obtain estimates of the rise of potentiation (uncontaminated by facilitation or an intermediate facilitatory process) during repetitive stimulation. It is found that potentiation is present following short trains of impulses and continually increases in magnitude with the duration of the conditioning stimulation. Potentiation was at a maximum immediately following the conditioning trains. 5. The relationship between P(T), the magnitude of potentiation immediately following repetitive stimulation, and tsu(H), the time constant for the decay of this potentiation, is given by tsu(H)=Ae-P(T)/B, where A=19-8 plus or minus 5-1 sec (mean plus or minus S.D. of an observation) and B increases from 2.2plus or minus 2-1 to 5-7 plus or minus 2-7 as the stimulation rate increases from 5 to 30/sec. 6. The value of A in the above equation can be considered to represent the minimal time constant for the decay of potentiation--that is, the time constant for decay after a simgle impulse. 7. Evidence is presented for a afacilitatory process with a time constant of decay of about 3 sec which is intermediate in duration between facilitation and potentiation. 8. It is suggested that repetitive stimulation has a dual effect on potentiation; each impulse (1) adds an increment of potentiation and (2) increases tsu(H), the time constant for the decay of potentiation.
摘要
- 用表面电极记录高镁低钙阻断的青蛙神经肌肉接头处的终板电位(e.p.p.s),以研究强直后增强(增强作用)。2. 发现增强作用在其大部分时间进程中呈指数衰减。3. 表征这种指数衰减的时间常数tsu(H)是先前刺激历史(频率和持续时间)的函数。例如,tsu(H)从几次冲动后的约20秒增加到超过1000次冲动后的70多秒。4. 提出了一种新方法,用于在重复刺激期间获得增强作用上升(未受易化或中间易化过程污染)的估计值。发现短串冲动后存在增强作用,并且随着条件刺激的持续时间,其幅度不断增加。在条件刺激串之后,增强作用立即达到最大值。5. 重复刺激后立即出现的增强作用幅度P(T)与该增强作用衰减的时间常数tsu(H)之间的关系由tsu(H)=Ae-P(T)/B给出,其中A = 19 - 8 ± 5 - 1秒(观察值的平均值±标准差),并且随着刺激速率从5增加到30/秒,B从2.2 ± 2 - 1增加到5 - 7 ± 2 - 7。6. 上述方程中的A值可被认为代表增强作用衰减的最小时间常数,即单次冲动后衰减的时间常数。7. 提出了存在一种衰减时间常数约为3秒的易化过程的证据,其持续时间介于易化和增强作用之间。8. 有人提出重复刺激对增强作用有双重影响;每个冲动(1)增加增强作用的增量,(2)增加增强作用衰减的时间常数tsu(H)。
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