感觉皮层和运动皮层相互作用的长程神经元回路。
Long-range neuronal circuits underlying the interaction between sensory and motor cortex.
机构信息
Janelia Farm Research Campus, HHMI, 19700 Helix Drive, Ashburn, VA 20147, USA.
出版信息
Neuron. 2011 Oct 6;72(1):111-23. doi: 10.1016/j.neuron.2011.07.029.
Abstract
In the rodent vibrissal system, active sensation and sensorimotor integration are mediated in part by connections between barrel cortex and vibrissal motor cortex. Little is known about how these structures interact at the level of neurons. We used Channelrhodopsin-2 (ChR2) expression, combined with anterograde and retrograde labeling, to map connections between barrel cortex and pyramidal neurons in mouse motor cortex. Barrel cortex axons preferentially targeted upper layer (L2/3, L5A) neurons in motor cortex; input to neurons projecting back to barrel cortex was particularly strong. Barrel cortex input to deeper layers (L5B, L6) of motor cortex, including neurons projecting to the brainstem, was weak, despite pronounced geometric overlap of dendrites with axons from barrel cortex. Neurons in different layers received barrel cortex input within stereotyped dendritic domains. The cortico-cortical neurons in superficial layers of motor cortex thus couple motor and sensory signals and might mediate sensorimotor integration and motor learning.
摘要
在啮齿动物触须系统中,主动感觉和感觉运动整合部分是通过纹状皮层和触须运动皮层之间的连接来介导的。关于这些结构在神经元水平上如何相互作用,我们知之甚少。我们使用 Channelrhodopsin-2(ChR2)表达,结合顺行和逆行标记,来绘制皮层和运动皮层中锥体神经元之间的连接图谱。皮层轴突优先靶向运动皮层的上层(L2/3、L5A)神经元;反馈到皮层的输入特别强。皮层输入到运动皮层的更深层(L5B、L6),包括投射到脑干的神经元,很弱,尽管皮层的树突与来自皮层的轴突有明显的几何重叠。不同层的神经元在定型的树突域内接收皮层的输入。因此,运动皮层浅层的皮质-皮质神经元耦合运动和感觉信号,并可能介导感觉运动整合和运动学习。
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