体外大鼠纹状体抑制性突触处依赖Sr2+的异步诱发传递
Sr2+-dependent asynchronous evoked transmission at rat striatal inhibitory synapses in vitro.
作者信息
Rumpel E, Behrends J C
机构信息
Department of Physiology, University of Munich, Pettenkoferstrasse 12, 80336 Munchen, Germany.
出版信息
J Physiol. 1999 Jan 15;514 ( Pt 2)(Pt 2):447-58. doi: 10.1111/j.1469-7793.1999.447ae.x.
Abstract
- At striatal inhibitory synapses in cell culture, replacement of extracellular Ca2+ with Sr2+ desynchronized inhibitory postynaptic currents (IPSCs), reducing their peak amplitude and producing a succession of late, asynchronous synaptic events (late release). In the averaged IPSC waveform this resulted in an increase in both the fast and the slow decay time constant as well as in the time to peak. 2. Rapid removal of extracellular Sr2+ during late release was without effect on the time course of the averaged IPSC. Thus, late release is not dependent on continuous Sr2+ influx, but must be related to the way in which Sr2+, as opposed to Ca2+, interacts with constituents of the intracellular space. 3. After application of the membrane-permeant acetoxymethyl ester (AM) form of the Ca2+-chelator BAPTA, Sr2+-induced late release was greatly reduced and the kinetics of the Sr2+-dependent IPSC approached those of the Ca2+-dependent response. EGTA AM had a similar but less pronounced effect. 4. Using rapid solution exchange, we stimulated synapses first in Sr2+- or Ca2+- and 100-300 ms afterwards in Ca2+-containing solution. Paired-pulse facilitation of late release was the same whether the conditioning pulse induced a presynaptic influx of Sr2+ or of Ca2+. 5. It is concluded that Sr2+-mediated asynchrony is probably due to a less efficient intraterminal buffering of Sr2+ as opposed to Ca2+, allowing for Sr2+ ions to activate release in an area less confined to the immediate vicinity of the presynaptic Ca2+ channel. This hypothesis explains both the action of endogenous buffers and the apparent lack of specific facilitatory interaction between Ca2+-mediated and Sr2+-induced late release.
摘要
- 在细胞培养的纹状体抑制性突触中,用Sr2+替代细胞外Ca2+会使抑制性突触后电流(IPSCs)失同步,降低其峰值幅度,并产生一系列晚期、异步的突触事件(晚期释放)。在平均IPSC波形中,这导致快速和慢速衰减时间常数以及峰值时间增加。2. 在晚期释放期间快速去除细胞外Sr2+对平均IPSC的时间进程没有影响。因此,晚期释放不依赖于持续的Sr2+内流,而必须与Sr2+(与Ca2+相反)与细胞内空间成分相互作用的方式有关。3. 应用Ca2+螯合剂BAPTA的膜透性乙酰氧基甲酯(AM)形式后,Sr2+诱导的晚期释放大大减少,且Sr2+依赖性IPSC的动力学接近Ca2+依赖性反应的动力学。EGTA AM有类似但不太明显的效果。4. 使用快速溶液交换,我们首先在含Sr2+或Ca2+的溶液中刺激突触,然后在含Ca2+的溶液中刺激100 - 300毫秒。无论条件脉冲诱导的是突触前Sr2+内流还是Ca2+内流,晚期释放的双脉冲易化作用都是相同的。5. 得出的结论是,Sr2+介导的异步性可能是由于与Ca2+相比Sr2+在终末内的缓冲效率较低,使得Sr2+离子能够在一个不太局限于突触前Ca2+通道紧邻区域的范围内激活释放。这一假设解释了内源性缓冲剂的作用以及Ca2+介导的和Sr2+诱导的晚期释放之间明显缺乏特异性易化相互作用的现象。
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