脊椎动物中枢神经系统突触处的突触传递。
Synaptic transfer at a vertebrate central nervous system synapse.
作者信息
Martin A R, Ringham G L
出版信息
J Physiol. 1975 Oct;251(2):409-26. doi: 10.1113/jphysiol.1975.sp011101.
Abstract
- The relation between presynaptic depolarization and transmitter release was examined at a synapse between a Müller axon and a lateral interneurone in the spinal cord of the lamprey. Two micro-electrodes, one for passing current and the other for recording the resulting voltage change, were placed in the presynaptic axon; a single electrode for recording the post-synaptic potential produced by release of transmitter was placed in the post-synaptic cell. 2. When action potentials were blocked with tetrodotoxin, brief depolarizing pulses in the presynaptic fibre were as effective as the action potential had been in producing transmitter release. 3. The release process had an apparent threshold depolarization of 40-50 mV and saturated at presynaptic depolarizations of the order of 100 mV. Increasing the duration of the presynaptic pulse increased the maximum level of release. 4. Displacing the presynaptic voltage recording electrode from the position of synaptic contact toward the current passing electrode increased the apparent depolarization required to produce a given level of transmitter release. This shift in the input-output relation was consistent in magnitude with the voltage attenuation between the presynaptic recording electrode and the synapse expected from the space constant of the fibre. 5. The effect of conditioning hyperpolarization and depolarization of the presynaptic fibre on subsequent transmitter release by brief depolarizing pulses was examined. No effect was observed when the presynaptic recording electrode was in the region of synaptic contact. When the presynaptic electrode was not so positioned, conditioning effects were observed which depended on electode position and could be attributed to changes in the space constant of the presynaptic fibre. No conditioning effects were observed on transmitter release by the action potential.
摘要
- 在七鳃鳗脊髓的米勒轴突与外侧中间神经元之间的突触处,研究了突触前去极化与递质释放之间的关系。将两根微电极置于突触前轴突中,一根用于通电流,另一根用于记录由此产生的电压变化;将一根用于记录递质释放所产生的突触后电位的电极置于突触后细胞中。2. 当用河豚毒素阻断动作电位时,突触前纤维中的短暂去极化脉冲在产生递质释放方面与动作电位一样有效。3. 释放过程的明显阈值去极化约为40 - 50 mV,并在约100 mV的突触前去极化时达到饱和。增加突触前脉冲的持续时间会提高释放的最大水平。4. 将突触前电压记录电极从突触接触位置向通电流电极方向移动,会增加产生给定水平递质释放所需的明显去极化。输入 - 输出关系的这种变化在幅度上与根据纤维的空间常数预期的突触前记录电极与突触之间的电压衰减一致。5. 研究了突触前纤维的条件性超极化和去极化对随后短暂去极化脉冲引起的递质释放的影响。当突触前记录电极位于突触接触区域时未观察到影响。当突触前电极未处于该位置时,观察到了条件性影响,其取决于电极位置,可归因于突触前纤维空间常数的变化。对动作电位引起的递质释放未观察到条件性影响。
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