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本文引用的文献

1
Multiple modes of amplification of synaptic inhibition to motoneurons by persistent inward currents.持续性内向电流对运动神经元突触抑制的多种放大模式。
J Neurophysiol. 2008 Feb;99(2):571-82. doi: 10.1152/jn.00717.2007. Epub 2007 Nov 28.
2
Estimates of the location of L-type Ca2+ channels in motoneurons of different sizes: a computational study.不同大小运动神经元中L型Ca2+通道位置的估计:一项计算研究
J Neurophysiol. 2007 Jun;97(6):4023-35. doi: 10.1152/jn.00044.2007. Epub 2007 Apr 11.
3
Intrinsic electrical properties of spinal motoneurons vary with joint angle.脊髓运动神经元的内在电特性随关节角度而变化。
Nat Neurosci. 2007 Mar;10(3):363-9. doi: 10.1038/nn1852. Epub 2007 Feb 11.
4
Localization of L-type calcium channel Ca(V)1.3 in cat lumbar spinal cord--with emphasis on motoneurons.L型钙通道Ca(V)1.3在猫腰脊髓中的定位——重点关注运动神经元。
Neurosci Lett. 2006 Oct 16;407(1):42-7. doi: 10.1016/j.neulet.2006.07.073. Epub 2006 Sep 1.
5
Measuring dendritic distribution of membrane proteins.测量膜蛋白的树突分布。
J Neurosci Methods. 2006 Sep 30;156(1-2):257-66. doi: 10.1016/j.jneumeth.2006.03.014. Epub 2006 May 9.
6
Computational estimation of the distribution of L-type Ca(2+) channels in motoneurons based on variable threshold of activation of persistent inward currents.基于持续性内向电流激活可变阈值对运动神经元中L型Ca(2+)通道分布进行计算估计。
J Neurophysiol. 2006 Jan;95(1):225-41. doi: 10.1152/jn.00646.2005. Epub 2005 Nov 2.
7
Simulation of dendritic CaV1.3 channels in cat lumbar motoneurons: spatial distribution.猫腰段运动神经元中树突状CaV1.3通道的模拟:空间分布
J Neurophysiol. 2005 Dec;94(6):3961-74. doi: 10.1152/jn.00391.2005. Epub 2005 Aug 24.
8
Comparison of the inhibition of Renshaw cells during subthreshold and suprathreshold conditions using anatomically and physiologically realistic models.使用解剖学和生理学逼真模型比较阈下和阈上条件下对闰绍细胞的抑制作用。
J Neurophysiol. 2005 Sep;94(3):1688-98. doi: 10.1152/jn.00284.2005. Epub 2005 May 25.
9
Persistent inward currents in motoneuron dendrites: implications for motor output.运动神经元树突中的持续性内向电流:对运动输出的影响。
Muscle Nerve. 2005 Feb;31(2):135-56. doi: 10.1002/mus.20261.
10
Relationship between morphoelectrotonic properties of motoneuron dendrites and their trajectory.运动神经元树突的形态电紧张特性与其轨迹之间的关系。
J Comp Neurol. 2004 Jun 7;473(4):562-81. doi: 10.1002/cne.20137.

抑制性突触和持续性内向电流的相对位置决定了运动神经元中突触放大的幅度和模式。

Relative location of inhibitory synapses and persistent inward currents determines the magnitude and mode of synaptic amplification in motoneurons.

作者信息

Bui Tuan V, Grande Giovanbattista, Rose P Ken

机构信息

Canadian Institutes of Health Research Group in Sensory-Motor Systems, Department of Physiology, Centre for Neuroscience Studies, Queen's University, Kingston, Canada.

出版信息

J Neurophysiol. 2008 Feb;99(2):583-94. doi: 10.1152/jn.00718.2007. Epub 2007 Nov 28.

DOI:10.1152/jn.00718.2007
PMID:18046006
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2930908/
Abstract

In some motoneurons, L-type Ca2+ channels that partly mediate persistent inward currents (PICs) have been estimated to be arranged in 50- to 200-microm-long discrete regions in the dendrites, centered 100 to 400 microm from the soma. As a consequence of this nonuniform distribution, the interaction between synaptic inputs to motoneurons and these channels may vary according to the distribution of the synapses. For instance, >93% of synapses from Renshaw cells have been observed to be located 65 to 470 microm away from the cell body of motoneurons. Our goal was to assess whether Renshaw cell synapses are distributed in a position to more effectively control the activation of the L-type Ca2+ channels. Using compartmental models of motoneurons with L-type Ca2+ channels distributed in 100-microm-long hot spots centered 100 to 400 microm away from the soma, we compared the inhibition generated by four distributions of inhibitory synapses: proximal, distal, uniform, and one based on the location of Renshaw cell synapses on motoneurons. Regardless of whether the synapses were activated tonically or transiently, in the presence of L-type Ca2+ channels, inhibitory synapses distributed according to the Renshaw cell synapse distribution generate the largest inhibitory currents. The effectiveness of a particular distribution of inhibitory synapses in the presence of PICs depends on their ability to deactivate the channels underlying PICs, which is influenced not only by the superposition between synapses and channels, but also by the distance away from the somatic voltage clamp.

摘要

在一些运动神经元中,部分介导持续性内向电流(PICs)的L型Ca2+通道据估计排列在树突中50至200微米长的离散区域,这些区域以距胞体100至400微米为中心。由于这种不均匀分布,运动神经元突触输入与这些通道之间的相互作用可能会根据突触的分布而有所不同。例如,已观察到来自闰绍细胞的突触中,超过93%位于距运动神经元细胞体65至470微米处。我们的目标是评估闰绍细胞突触的分布位置是否能更有效地控制L型Ca2+通道的激活。我们使用了运动神经元的房室模型,其中L型Ca2+通道分布在距胞体100至400微米为中心的100微米长的热点区域,比较了四种抑制性突触分布所产生的抑制作用:近端、远端、均匀分布以及基于闰绍细胞突触在运动神经元上位置的一种分布。无论突触是持续性激活还是瞬时激活,在存在L型Ca2+通道的情况下,根据闰绍细胞突触分布的抑制性突触产生的抑制电流最大。在存在PICs的情况下,特定抑制性突触分布的有效性取决于它们使PICs潜在通道失活的能力,这不仅受突触与通道之间叠加的影响,还受距胞体电压钳距离的影响。