前馈抑制决定了主要三叉神经核中触须反应的角度调谐。
Feedforward inhibition determines the angular tuning of vibrissal responses in the principal trigeminal nucleus.
机构信息
Centre de Recherche Université Laval Robert-Giffard, Québec City, Québec G1J 2R3, Canada.
出版信息
J Neurosci. 2010 Jan 20;30(3):1057-63. doi: 10.1523/JNEUROSCI.4805-09.2010.
Abstract
Trigeminal neurons that relay vibrissal messages to the thalamus receive input from first-order afferents that are tuned to different directions of whisker motion. This raises the question of how directional tuning is maintained in central relay stations of the whisker system. In the present study we performed a detailed analysis of the angular tuning properties of cells in the principal trigeminal nucleus of the rat. We found that stimulus direction systematically influences response latency, so that the degree of directional tuning and the preferred deflection angle computed with first-spike latency yielded results nearly similar to those obtained with spike counts. Furthermore, we found that inhibition sharpens directional selectivity, and that pharmacological blockade of inhibition markedly decreases the angular tuning of cellular responses. These results indicate that the angular tuning of cells in the first relay station of the vibrissal system is determined by fast feedforward inhibition, which shapes excitatory inputs at the very beginning of synaptic integration.
摘要
向丘脑传递触须信息的三叉神经神经元接收来自被调谐到不同触须运动方向的一级传入的输入。这就提出了一个问题,即在触须系统的中央中继站中如何维持方向调谐。在本研究中,我们对大鼠主要三叉神经核中细胞的角度调谐特性进行了详细分析。我们发现刺激方向系统地影响反应潜伏期,因此,用第一峰潜伏期计算的方向调谐程度和最佳偏转角与用尖峰计数得到的结果几乎相似。此外,我们发现抑制作用使方向选择性变尖锐,而抑制的药理学阻断显著降低细胞反应的角度调谐。这些结果表明,触须系统第一中继站中细胞的角度调谐由快速前馈抑制决定,这种抑制在突触整合的开始就形成了兴奋性输入。
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