青蛙神经肌肉接头处递质释放的强直和强直后增强的定量描述。
A quantitative description of tetanic and 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):183-208. doi: 10.1113/jphysiol.1975.sp010840.
Abstract
- End-plate potential (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. The magnitude of potentiation was not directly related to the number of conditioning impulses, but was a function of the frequency and duration of the conditioning stimulation. 3. Potentiation was always greater following an equal number of impulses delivered at a higher frequency of stimulation. 4. Plots of the magnitude of potentiation against the number of conditioning impulses would sometimes show an upward inflexion depending on the parameters of stimulation. 5. These experimental observations were described by a model based on the assumption (1) that potentiation is linearly related to a residual substance, R(t), which accumulates in the nerve terminal during repetitive stimulation, and (2) that each nerve impulse adds an identical increment, r, of this residual substance. The data were not described by assuming a 4th power relationship between potentiation and R(t). 6. The upward inflexion in potentiation (see paragraph 4) is described by the model as resulting from an increase in the time constant for the decay of potentiation as the magnitude of potentiation increases. 7. The increment of residual substance r added by each impulse was independent of the amount of transmitter released during the conditioning train. This increment typically increased transmitter release by amount 1% of the control level in the absence of potentiation. 8. Suggestions are given to explain why potentiation of transmitter release, which is thought to arise from an accumulation of Ca-2+ in the nerve terminal, can be described assuming a linear relationship between potentiation and R(t), the proposed substance responsible for potentiation, under experimental conditions in which a 3rd to 4th power relationship would be expected to exist between external Ca concentration and evoked transmitter release.
摘要
- 用表面电极记录处于高镁低钙环境中被阻断的青蛙神经肌肉接头的终板电位(e.p.p.s),以研究强直后增强(增强作用)。2. 增强作用的大小与条件刺激脉冲的数量没有直接关系,而是条件刺激的频率和持续时间的函数。3. 在以较高刺激频率施加相同数量的脉冲后,增强作用总是更大。4. 根据刺激参数的不同,增强作用大小与条件刺激脉冲数量的关系图有时会出现向上的拐点。5. 这些实验观察结果由一个模型进行描述,该模型基于以下假设:(1)增强作用与一种残留物质R(t)呈线性关系,这种残留物质在重复刺激过程中在神经末梢积累;(2)每个神经冲动会使这种残留物质增加相同的增量r。假设增强作用与R(t)之间存在四次方关系并不能描述这些数据。6. 该模型将增强作用中的向上拐点(见第4段)描述为随着增强作用大小的增加,增强作用衰减的时间常数增加所致。7. 每个冲动添加的残留物质增量r与条件刺激串期间释放的递质数量无关。在没有增强作用的情况下,这种增量通常会使递质释放量比对照水平增加1%。8. 文中给出了一些建议来解释为什么在外部钙浓度与诱发的递质释放之间预计存在三次方到四次方关系的实验条件下,被认为是由神经末梢中Ca²⁺积累引起的递质释放增强作用,可以通过假设增强作用与被认为是负责增强作用的物质R(t)之间存在线性关系来描述。
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