不同的机制在ON和OFF视网膜神经节细胞中产生持续活动。
Different mechanisms generate maintained activity in ON and OFF retinal ganglion cells.
作者信息
Margolis David J, Detwiler Peter B
机构信息
Program in Neurobiology and Behavior and Department of Physiology and Biophysics, University of Washington, Seattle, Washington 98195, USA.
出版信息
J Neurosci. 2007 May 30;27(22):5994-6005. doi: 10.1523/JNEUROSCI.0130-07.2007.
Abstract
Neuronal discharge is driven by either synaptic input or cell-autonomous intrinsic pacemaker activity. It is commonly assumed that the resting spike activity of retinal ganglion cells (RGCs), the output cells of the retina, is driven synaptically, because retinal photoreceptors and second-order cells tonically release neurotransmitter. Here we show that ON and OFF RGCs generate maintained activity through different mechanisms: ON cells depend on tonic excitatory input to drive resting activity, whereas OFF cells continue to fire in the absence of synaptic input. In addition to spontaneous activity, OFF cells exhibit other properties of pacemaker neurons, including subthreshold oscillations, burst firing, and rebound excitation. Thus, variable weighting of synaptic mechanisms and intrinsic properties underlies differences in the generation of maintained activity in these parallel retinal pathways.
摘要
神经元放电由突触输入或细胞自主内在起搏器活动驱动。通常认为,视网膜神经节细胞(RGCs)作为视网膜的输出细胞,其静息尖峰活动是由突触驱动的,因为视网膜光感受器和二阶细胞会持续释放神经递质。在此我们表明,ON和OFF视网膜神经节细胞通过不同机制产生持续活动:ON细胞依赖于强直兴奋性输入来驱动静息活动,而OFF细胞在没有突触输入时仍继续放电。除了自发活动外,OFF细胞还表现出起搏器神经元的其他特性,包括阈下振荡、爆发式放电和反弹兴奋。因此,突触机制和内在特性的可变权重是这些平行视网膜通路中持续活动产生差异的基础。
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