大鼠初级体感皮层中特定层和细胞类型的阈上刺激表征
Layer- and cell-type-specific suprathreshold stimulus representation in rat primary somatosensory cortex.
作者信息
de Kock C P J, Bruno R M, Spors H, Sakmann B
机构信息
Department of Cell Physiology, Max-Planck Institute for Medical Research, Jahnstrasse 29, D-69120 Heidelberg, Germany.
出版信息
J Physiol. 2007 May 15;581(Pt 1):139-54. doi: 10.1113/jphysiol.2006.124321. Epub 2007 Feb 22.
Abstract
Sensory stimuli are encoded differently across cortical layers and it is unknown how response characteristics relate to the morphological identity of responding cells. We therefore juxtasomally recorded action potential (AP) patterns from excitatory cells in layer (L) 2/3, L4, L5 and L6 of rat barrel cortex in response to a standard stimulus (e.g. repeated deflection of single whiskers in the caudal direction). Subsequent single-cell filling with biocytin allowed for post hoc identification of recorded cells. We report three major conclusions. First, sensory-evoked responses were layer- and cell-type-specific but always < 1 AP per stimulus, indicating low AP rates for the entire cortical column. Second, response latencies from L4, L5B and L6 were comparable and thus a whisker deflection is initially represented simultaneously in these layers. Finally, L5 thick-tufted cells dominated the cortical AP output following sensory stimulation, suggesting that these cells could direct sensory guided behaviours.
摘要
感觉刺激在不同皮质层的编码方式不同,目前尚不清楚反应特性与反应细胞的形态特征之间有何关系。因此,我们采用近胞体记录法,记录大鼠桶状皮质第2/3层、第4层、第5层和第6层兴奋性细胞对标准刺激(如向尾侧方向反复轻弹单根胡须)的动作电位(AP)模式。随后用生物胞素对单细胞进行填充,以便事后识别记录的细胞。我们报告了三个主要结论。第一,感觉诱发反应具有层特异性和细胞类型特异性,但每次刺激的反应总是<1个动作电位,表明整个皮质柱的动作电位发放率较低。第二,来自第4层、第5B层和第6层的反应潜伏期相当,因此胡须轻弹最初在这些层中同时得到表征。最后,感觉刺激后,第5层厚簇状细胞主导了皮质动作电位输出,这表明这些细胞可能指导感觉引导行为。
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