体外培养的龟脊髓运动神经元中局部递质反应的空间整合
Spatial integration of local transmitter responses in motoneurones of the turtle spinal cord in vitro.
作者信息
Skydsgaard M, Hounsgaard J
机构信息
Department of Medical Physiology, University of Copenhagen, Denmark.
出版信息
J Physiol. 1994 Sep 1;479 ( Pt 2)(Pt 2):233-46. doi: 10.1113/jphysiol.1994.sp020291.
Abstract
- Integration of responses to local activation of transmitter receptors in the dendrites of motoneurones was investigated in a slice preparation of the turtle spinal cord. Membrane-active substances were applied from up to three independent iontophoresis electrodes during intracellular recording from the cell body. 2. Responses to glutamate could be evoked from dendrites closer than 20 microns from the tip of the glutamate electrode. The effects of other substances were more widespread. 3. In normal medium the configuration of a glutamate response was affected by time-dependent anomalous rectification. In the presence of muscarine the sum of glutamate responses from two different dendrites recruited a voltage-sensitive plateau potential. 4. The response to glutamate from one dendrite could be attenuated by local application of gamma-aminobutyric acid (GABA) without effects on soma conductance or glutamate responses from other dendrites. 5. The response to glutamate from one dendrite could be selectively enhanced by local application of tetraethylammonium (TEA) or N-methyl-D-aspartate (NMDA) without effects on soma conductance or glutamate responses from other dendrites. 6. NMDA could convert a tonic glutamate response from one dendrite into a phasic response without affecting the configuration of glutamate responses from other dendrites. 7. The effects of TEA and NMDA were facilitated by depolarization and reduced by hyperpolarization. 8. We conclude that the cable structure of motoneurones and the distribution of synapses and voltage-sensitive ion channels provide relative autonomy to non-linear synaptic processing and modulation in confined dendritic regions.
摘要
- 在乌龟脊髓切片标本中研究了运动神经元树突对递质受体局部激活的反应整合。在从细胞体进行细胞内记录期间,通过多达三个独立的离子电泳电极施加膜活性物质。2. 从距离谷氨酸电极尖端小于20微米的树突中可诱发对谷氨酸的反应。其他物质的作用范围更广。3. 在正常培养基中,谷氨酸反应的形态受时间依赖性反常整流的影响。在毒蕈碱存在的情况下,来自两个不同树突的谷氨酸反应总和募集了一个电压敏感性平台电位。4. 局部应用γ-氨基丁酸(GABA)可减弱来自一个树突的谷氨酸反应,而不影响胞体电导或其他树突的谷氨酸反应。5. 局部应用四乙铵(TEA)或N-甲基-D-天冬氨酸(NMDA)可选择性增强来自一个树突的谷氨酸反应,而不影响胞体电导或其他树突的谷氨酸反应。6. NMDA可将来自一个树突的持续性谷氨酸反应转变为相位性反应,而不影响其他树突的谷氨酸反应形态。7. TEA和NMDA的作用在去极化时增强,在超极化时减弱。8. 我们得出结论,运动神经元的电缆结构以及突触和电压敏感性离子通道的分布为局限的树突区域内的非线性突触处理和调制提供了相对自主性。
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