自发性皮层活动对感觉输入的门控作用。

Gating of sensory input by spontaneous cortical activity.

机构信息

Center for Molecular and Behavioral Neuroscience, Rutgers University, Newark, New Jersey 07102, USA.

出版信息

J Neurosci. 2013 Jan 23;33(4):1684-95. doi: 10.1523/JNEUROSCI.2928-12.2013.

DOI:10.1523/JNEUROSCI.2928-12.2013

PMID:23345241

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3672963/

Abstract

The activity of neural populations is determined not only by sensory inputs but also by internally generated patterns. During quiet wakefulness, the brain produces spontaneous firing events that can spread over large areas of cortex and have been suggested to underlie processes such as memory recall and consolidation. Here we demonstrate a different role for spontaneous activity in sensory cortex: gating of sensory inputs. We show that population activity in rat auditory cortex is composed of transient 50-100 ms packets of spiking activity that occur irregularly during silence and sustained tone stimuli, but reliably at tone onset. Population activity within these packets had broadly consistent spatiotemporal structure, but the rate and also precise relative timing of action potentials varied between stimuli. Packet frequency varied with cortical state, with desynchronized state activity consistent with superposition of multiple overlapping packets. We suggest that such packets reflect the sporadic opening of a "gate" that allows auditory cortex to broadcast a representation of external sounds to other brain regions.

摘要

神经元群体的活动不仅由感觉输入决定，还由内部产生的模式决定。在安静的觉醒状态下，大脑会产生自发的放电事件，这些事件可以在大脑皮层的大片区域传播，并被认为是记忆回忆和巩固等过程的基础。在这里，我们展示了自发活动在感觉皮层中的另一个作用：感觉输入的门控。我们表明，大鼠听觉皮层中的群体活动由短暂的 50-100ms 的尖峰活动包组成，这些活动包在安静和持续的音调刺激期间不规则地发生，但在音调起始时可靠地发生。这些包内的群体活动具有广泛一致的时空结构，但在刺激之间，动作电位的频率和精确的相对定时有所不同。包的频率随皮层状态而变化，去同步状态的活动与多个重叠包的叠加一致。我们认为，这种包反映了“门”的间歇性打开，使听觉皮层能够将外部声音的表示广播到其他大脑区域。

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