Petersen Carl C H, Grinvald Amiram, Sakmann Bert
Department of Cell Physiology, Max-Planck-Institute for Medical Research, Heidelberg D-69120, Germany.
J Neurosci. 2003 Feb 15;23(4):1298-309. doi: 10.1523/JNEUROSCI.23-04-01298.2003.
The spatiotemporal dynamics of the sensory response in layer 2/3 of primary somatosensory cortex evoked by a single brief whisker deflection was investigated by simultaneous voltage-sensitive dye (VSD) imaging and whole-cell (WC) voltage recordings in the anesthetized rat combined with reconstructions of dendritic and axonal arbors of L2/3 pyramids. Single and dual WC recordings from pyramidal cells indicated a strong correlation between the local VSD population response and the simultaneously measured subthreshold postsynaptic potential changes in both amplitude and time course. The earliest VSD response was detected 10-12 msec after whisker deflection centered above the barrel isomorphic to the stimulated principal whisker. It was restricted horizontally to the size of a single barrel-column coextensive with the dendritic arbor of barrel-column-related pyramids in L2/3. The horizontal spread of excitation remained confined to a single barrel-column with weak whisker deflection. With intermediate deflections, excitation spread into adjacent barrel-columns, propagating twofold more rapidly along the rows of the barrel field than across the arcs, consistent with the preferred axonal arborizations in L2/3 of reconstructed pyramidal neurons. Finally, larger whisker deflections evoked excitation spreading over the entire barrel field within approximately 50 msec before subsiding over the next approximately 250 msec. Thus the subthreshold cortical map representing a whisker deflection is dynamic on the millisecond time scale and strongly depends on stimulus strength. The sequential spatiotemporal activation of the excitatory neuronal network in L2/3 by a simple sensory stimulus can thus be accounted for primarily by the columnar restriction of L4 to L2/3 excitatory connections and the axonal field of barrel-related pyramids.
通过在麻醉大鼠中同时进行电压敏感染料(VSD)成像和全细胞(WC)电压记录,并结合对L2/3锥体神经元树突和轴突分支的重建,研究了由单个短暂的触须偏转引起的初级体感皮层第2/3层感觉反应的时空动态。来自锥体细胞的单通道和双通道WC记录表明,局部VSD群体反应与同时测量的阈下突触后电位变化在幅度和时间进程上都有很强的相关性。在与受刺激的主要触须同构的桶状结构上方中心位置的触须偏转后10 - 12毫秒检测到最早的VSD反应。它在水平方向上局限于与L2/3中与桶状结构相关的锥体神经元树突分支共延的单个桶状柱的大小范围内。在触须轻微偏转时,兴奋的水平传播仍局限于单个桶状柱。在中等偏转时,兴奋扩散到相邻的桶状柱,沿桶状场的行传播速度比跨弧传播速度快两倍,这与重建的锥体神经元在L2/3中的首选轴突分支一致。最后,更大的触须偏转在大约50毫秒内引起兴奋在整个桶状场传播,然后在接下来的大约250毫秒内消退。因此,代表触须偏转的阈下皮层图谱在毫秒时间尺度上是动态的,并且强烈依赖于刺激强度。因此,简单感觉刺激对L2/3中兴奋性神经元网络的顺序时空激活主要可以由L4到L2/3兴奋性连接的柱状限制以及与桶状结构相关的锥体神经元的轴突场来解释。