增强作用:一种作用于增加青蛙神经肌肉接头处递质释放的过程。
Augmentation: A process that acts to increase transmitter release at the frog neuromuscular junction.
作者信息
Magleby K L, Zengel J E
出版信息
J Physiol. 1976 May;257(2):449-70. doi: 10.1113/jphysiol.1976.sp011378.
Abstract
- End-plate potentials (e.p.p.s) were recorded from frog neuromuscular junctions bathed in Ringer solution containing increased Mg and decreased Ca to reduce transmitter release. Conditioning and testing stimulation was applied to the nerve to study a previously uncharacterized process which acts to increase e.p.p. amplitudes. We will refer to this process as augmentation. 2. Following repetitive stimulation augmentation decayed approximately exponentially over most of its time course with a mean time constant of about 7 sec (range 4-10 sec) which is intermediate in duration between the time constants for the decay of facilitation and potentiation. 3 . The magnitude of agumentation increased with the duration of the conditioning stimulation. Assuming a multiplicative relationship between augmentation and potentiation, values of the magnitude of augmentation ranged from 0-3 to 0-6 following 50 impulses at 20/sec to 0-5-7-8 following 600 impulses at 20/sec. (An augmentation of 0-3 and 7-8 would increase e.p.p. amplitudes 1-3 and 8-8 times, respectively.) 4. The time constant characterizing the decay of augmentation remained relatively constant as the duration of the conditioning stimulation was increased. 5. Augmentation as well as facilitation and potentiation resulted from an increase in the number of quanta of transmitter released from the nerve terminal. 6. Augmentation decayed faster at higher temperatures with a mean temperature coefficient, Q10, of about 3-8. The corresponding Q10 for the decay of potentiation was found to be about 2-4. 7. It is concluded that augmentation can be a significant factor in increasing transmitter release and will therefore have to be accounted for when studying the effects of repetitive stimulation on the function of the nerve terminal or when formulating models of transmitter release.
摘要
- 终板电位(e.p.p.s)是在含有增加的镁和减少的钙的林格氏液中浸泡的青蛙神经肌肉接头处记录的,以减少递质释放。对神经施加条件刺激和测试刺激,以研究一个以前未被表征的过程,该过程可增加终板电位的幅度。我们将这个过程称为增强。2. 重复刺激后,增强在其大部分时间进程中大致呈指数衰减,平均时间常数约为7秒(范围为4 - 10秒),其持续时间介于易化和强直后增强衰减的时间常数之间。3. 增强的幅度随条件刺激的持续时间增加。假设增强与强直后增强之间存在乘法关系,在20次/秒给予50次冲动后,增强幅度的值范围为0.3至0.6,在20次/秒给予600次冲动后,增强幅度的值范围为0.5至7.8。(增强幅度为0.3和7.8分别会使终板电位幅度增加1.3倍和8.8倍。)4. 随着条件刺激持续时间的增加,表征增强衰减的时间常数保持相对恒定。5. 增强以及易化和强直后增强是由于从神经末梢释放的递质量子数量增加所致。6. 在较高温度下,增强衰减得更快,平均温度系数Q10约为3.8。发现强直后增强衰减的相应Q10约为2.4。7. 得出的结论是,增强可能是增加递质释放的一个重要因素,因此在研究重复刺激对神经末梢功能的影响或建立递质释放模型时必须予以考虑。
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