大鼠桶状皮层中神经元的交叉触须适应

Cross-whisker adaptation of neurons in the rat barrel cortex.

作者信息

Katz Yonatan, Heiss Jaime E, Lampl Ilan

机构信息

Department of Neurobiology, The Weizmann Institute of Science, 76100 Rehovot, Israel.

出版信息

J Neurosci. 2006 Dec 20;26(51):13363-72. doi: 10.1523/JNEUROSCI.4056-06.2006.

DOI:10.1523/JNEUROSCI.4056-06.2006

PMID:17182787

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6674994/

Abstract

Neurons in the barrel cortex and the thalamus respond preferentially to stimulation of one whisker (the principal whisker) and weakly to several adjacent whiskers. Cortical neurons, unlike thalamic cells, gradually adapt to repeated whisker stimulations. Whether cortical adaptation is specific to the stimulated whisker is not known. The aim of this intracellular study was to determine whether the response of a cortical cell to stimulation of an adjacent whisker would be affected by previous adaptation induced by stimulation of the principal whisker and vice versa. Using a high-frequency stimulation that causes substantial adaptation in the cortex and much less adaptation in the thalamus, we show that cortical adaptation evoked by a train of stimuli applied to one whisker does not affect the synaptic response to subsequent stimulation of a neighboring whisker. Our data indicate that intrinsic mechanisms are not involved in cortical adaptation. Thalamic recordings obtained under the same conditions demonstrated that an adjacent whisker response was not generated in the thalamus, indicating that the observed whisker-specific adaptation results from diverging thalamic inputs or from cortical integration.

摘要

桶状皮层和丘脑的神经元优先对一根触须（主要触须）的刺激做出反应，而对几根相邻触须的刺激反应较弱。与丘脑细胞不同，皮层神经元会逐渐适应重复的触须刺激。皮层适应是否特定于受刺激的触须尚不清楚。这项细胞内研究的目的是确定皮层细胞对相邻触须刺激的反应是否会受到主要触须刺激引起的先前适应的影响，反之亦然。使用高频刺激，这种刺激在皮层中会引起大量适应，而在丘脑中引起的适应则少得多，我们表明，施加于一根触须的一串刺激所诱发的皮层适应不会影响对相邻触须随后刺激的突触反应。我们的数据表明，内在机制不参与皮层适应。在相同条件下获得的丘脑记录表明，丘脑中不会产生相邻触须反应，这表明观察到的触须特异性适应是由丘脑输入的差异或皮层整合引起的。

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