视网膜无长突细胞中量子递质释放的动力学

The kinetics of quantal transmitter release from retinal amacrine cells.

作者信息

Borges S, Gleason E, Turelli M, Wilson M

机构信息

Section of Neurobiology, Physiology, and Behavior, University of California, Davis 95616, USA.

出版信息

Proc Natl Acad Sci U S A. 1995 Jul 18;92(15):6896-900. doi: 10.1073/pnas.92.15.6896.

DOI:10.1073/pnas.92.15.6896

PMID:7624339

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC41437/

Abstract

Exocytosis of transmitter at most synapses is a very fast process triggered by the entry of Ca2+ during an action potential. A reasonable expectation is that the fast step of exocytosis is followed by slow steps readying another vesicle for exocytosis but the identity and kinetics of these steps are presently unclear. By voltage clamping both pre- and postsynaptic neurons in an isolated pair of retinal amacrine cells, we have measured evoked synaptic currents and responses to single vesicles of transmitter (minis). From these currents, we have computed the rate of exocytosis during a sustained presynaptic depolarization. We show here that for these cells, release is consistent with a scheme of "fire and reload." Large Ca2+ influx causes the rapid release of a small number of vesicles, typically approximately 10 per presynaptic neuron, likely corresponding to those vesicles already docked. After this spike of exocytosis whose peak is 150 quanta per release site per s, continued Ca2+ influx sustains release at only 22 quanta per release site per s, probably rate-limited by the docking of fresh vesicles.

摘要

在大多数突触处，递质的胞吐作用是一个非常快速的过程，由动作电位期间Ca2+的内流触发。一个合理的推测是，快速的胞吐步骤之后会有缓慢的步骤，为另一个囊泡的胞吐作用做好准备，但这些步骤的特性和动力学目前尚不清楚。通过对一对分离的视网膜无长突细胞中的突触前和突触后神经元进行电压钳制，我们测量了诱发的突触电流以及对单个递质囊泡（微小突触后电流）的反应。从这些电流中，我们计算了持续突触前去极化期间的胞吐速率。我们在此表明，对于这些细胞，释放符合“激发并重装”模式。大量Ca2+内流导致少量囊泡快速释放，每个突触前神经元通常约为10个，可能对应于那些已经对接的囊泡。在这次胞吐峰值为每秒每个释放位点150个量子的爆发之后，持续的Ca2+内流使释放维持在每秒每个释放位点仅22个量子，这可能受新鲜囊泡对接的速率限制。

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