海马体中上下文相关感觉反应的膜电位动力学。

Membrane potential dynamics underlying context-dependent sensory responses in the hippocampus.

机构信息

Howard Hughes Medical Institute, Janelia Research Campus, Ashburn, VA, USA.

Max Planck Florida Institute for Neuroscience, Jupiter, FL, USA.

出版信息

Nat Neurosci. 2020 Jul;23(7):881-891. doi: 10.1038/s41593-020-0646-2. Epub 2020 May 25.

DOI:10.1038/s41593-020-0646-2

PMID:32451487

Abstract

As animals navigate, they must identify features within context. In the mammalian brain, the hippocampus has the ability to separately encode different environmental contexts, even when they share some prominent features. To do so, neurons respond to sensory features in a context-dependent manner; however, it is not known how this encoding emerges. To examine this, we performed electrical recordings in the hippocampus as mice navigated in two distinct virtual environments. In CA1, both synaptic input to single neurons and population activity strongly tracked visual cues in one environment, whereas responses were almost completely absent when the same cue was presented in a second environment. A very similar, highly context-dependent pattern of cue-driven spiking was also observed in CA3. These results indicate that CA1 inherits a complex spatial code from upstream regions, including CA3, that have already computed a context-dependent representation of environmental features.

摘要

当动物在导航时，它们必须在背景中识别特征。在哺乳动物大脑中，海马体有能力分别对不同的环境背景进行编码，即使它们有一些突出的特征。为了做到这一点，神经元以依赖于上下文的方式对感觉特征做出反应；然而，目前尚不清楚这种编码是如何出现的。为了研究这一点，我们在小鼠在两个不同的虚拟环境中导航时，在海马体中进行了电记录。在 CA1 中，单个神经元的突触输入和群体活动都强烈跟踪一个环境中的视觉线索，而当相同的线索出现在第二个环境中时，反应几乎完全消失。在 CA3 中也观察到了非常相似的、高度依赖上下文的线索驱动的尖峰模式。这些结果表明，CA1 从上游区域（包括 CA3）继承了一个复杂的空间编码，这些区域已经计算出了环境特征的依赖于上下文的表示。

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海马体中上下文相关感觉反应的膜电位动力学。

Membrane potential dynamics underlying context-dependent sensory responses in the hippocampus.

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