大鼠海马神经元微培养物中快速兴奋性突触电流的配对脉冲调制
Paired-pulse modulation of fast excitatory synaptic currents in microcultures of rat hippocampal neurons.
作者信息
Mennerick S, Zorumski C F
机构信息
Department of Psychiatry, Washington University School of Medicine, St Louis, MO 63110, USA.
出版信息
J Physiol. 1995 Oct 1;488 ( Pt 1)(Pt 1):85-101. doi: 10.1113/jphysiol.1995.sp020948.
Abstract
- Paired-pulse modulation of excitatory non-N-methyl-D-aspartate (non-NMDA) receptor-mediated autaptic currents and conventional monosynaptic (interneuronal) excitatory postsynaptic currents (EPSCs) was investigated in microcultures of rat hippocampal neurons, where polysynaptic influences are eliminated. 2. Most autaptic currents and EPSCs exhibited paired-pulse depression in response to paired stimuli. Depression was sensitive to the level of transmitter release, which was varied by manipulating extracellular Ca2+ and Mg2+ concentrations. Paired-pulse facilitation emerged in many cells at low levels of transmitter release. 3. Paired-pulse depression and facilitation could be differentially expressed at two distinct postsynaptic targets of a single presynaptic cell, and the form of modulation was not dependent upon the transmitter phenotype of the postsynaptic cell. 4. Paired-pulse depression recovered exponentially with a time constant of approximately 5 s, although in most neurons a much faster component of recovery was detected. Recovery from paired-pulse facilitation was well described by a single exponential of 380 +/- 57 ms. 5. Under conditions of robust paired-pulse depression of evoked responses, spontaneous autaptic and postsynaptic currents (sEPSCs, presumed miniature EPSCs) occurred at an enhanced frequency immediately following evoked responses. The decay of the frequency increase mirrored the time course of recovery from paired-pulse facilitation of evoked responses examined under conditions of reduced transmitter release. 6. Several lines of evidence suggested a large presynaptic component to paired-pulse depression. In eight out of nine cells no depression in sEPSC amplitudes was detected following conditioning stimulation. Simultaneously recorded glial glutamate uptake currents showed depression similar to neuronal evoked EPSCs. Finally, NMDA receptor-mediated EPSC paired-pulse depression at positive potentials was similar to non-NMDA EPSC depression. 7. Neither adenosine nor glutamate feedback onto presynaptic receptors is likely to mediate paired-pulse depression, because neither competitive nor non-competitive inhibitors of the actions of these agents diminished paired-pulse depression.
摘要
- 在消除了多突触影响的大鼠海马神经元微培养物中,研究了兴奋性非N-甲基-D-天冬氨酸(非NMDA)受体介导的自突触电流和传统单突触(中间神经元间)兴奋性突触后电流(EPSCs)的双脉冲调制。2. 大多数自突触电流和EPSCs对双脉冲刺激表现出双脉冲抑制。抑制对递质释放水平敏感,通过操纵细胞外Ca2+和Mg2+浓度可改变递质释放水平。在低水平递质释放时,许多细胞出现双脉冲易化。3. 双脉冲抑制和易化可在单个突触前细胞的两个不同突触后靶点上差异表达,且调制形式不依赖于突触后细胞的递质表型。4. 双脉冲抑制以约5秒的时间常数呈指数恢复,尽管在大多数神经元中检测到了更快的恢复成分。双脉冲易化的恢复可用380±57毫秒的单指数很好地描述。5. 在诱发反应的双脉冲抑制强烈的条件下,诱发反应后立即出现自突触和突触后自发电流(sEPSCs,推测为微小EPSCs)频率增加。频率增加的衰减反映了在递质释放减少条件下检测到的诱发反应双脉冲易化恢复的时间进程。6. 几条证据表明双脉冲抑制有很大的突触前成分。在9个细胞中的8个细胞中,条件刺激后未检测到sEPSC振幅的抑制。同时记录的胶质细胞谷氨酸摄取电流显示出与神经元诱发EPSCs相似的抑制。最后,NMDA受体介导的正电位下EPSC双脉冲抑制与非NMDA EPSC抑制相似。7. 腺苷和谷氨酸对突触前受体的反馈都不太可能介导双脉冲抑制,因为这些物质作用的竞争性和非竞争性抑制剂都没有减弱双脉冲抑制。
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