长程抑制性逆行扣带回丘脑皮质回路由顶端树突靶向 CA1 神经元介导。

Long-range inhibitory intersection of a retrosplenial thalamocortical circuit by apical tuft-targeting CA1 neurons.

机构信息

Department of Physiology, Feinberg School of Medicine, Northwestern University, Chicago, IL, USA.

Department of Psychiatry and Behavioral Sciences, Feinberg School of Medicine, Northwestern University, Chicago, IL, USA.

出版信息

Nat Neurosci. 2019 Apr;22(4):618-626. doi: 10.1038/s41593-019-0355-x. Epub 2019 Mar 11.

DOI:10.1038/s41593-019-0355-x

PMID:30858601

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6435388/

Abstract

Hippocampus, granular retrosplenial cortex (RSCg), and anterior thalamic nuclei (ATN) interact to mediate diverse cognitive functions. To identify cellular mechanisms underlying hippocampo-thalamo-retrosplenial interactions, we investigated the potential circuit suggested by projections to RSCg layer 1 (L1) from GABAergic CA1 neurons and ATN. We find that CA1→RSCg projections stem from GABAergic neurons with a distinct morphology, electrophysiology, and molecular profile. Their long-range axons inhibit L5 pyramidal neurons in RSCg via potent synapses onto apical tuft dendrites in L1. These inhibitory inputs intercept L1-targeting thalamocortical excitatory inputs from ATN to coregulate RSCg activity. Subicular axons, in contrast, excite proximal dendrites in deeper layers. Short-term plasticity differs at each connection. Chemogenetically abrogating CA1→RSCg or ATN→RSCg connections oppositely affects the encoding of contextual fear memory. Our findings establish retrosplenial-projecting CA1 neurons as a distinct class of long-range dendrite-targeting GABAergic neuron and delineate an unusual cortical circuit specialized for integrating long-range inhibition and thalamocortical excitation.

摘要

海马体、颗粒状后隔核（RSCg）和前丘脑核（ATN）相互作用，共同介导多种认知功能。为了确定海马体-丘脑-后隔核相互作用的细胞机制，我们研究了来自 GABA 能 CA1 神经元和 ATN 投射到 RSCg 层 1（L1）的潜在回路。我们发现 CA1→RSCg 投射源自具有独特形态、电生理和分子特征的 GABA 能神经元。它们的长程轴突通过在 L1 中的顶树突上形成强大的突触来抑制 RSCg 中的 L5 锥体神经元。这些抑制性输入截获来自 ATN 的靶向 L1 的丘脑皮质兴奋性输入，以共同调节 RSCg 的活动。相反，内嗅皮质轴突兴奋更深层的近端树突。每种连接的短期可塑性都不同。化学遗传破坏 CA1→RSCg 或 ATN→RSCg 连接会对情境恐惧记忆的编码产生相反的影响。我们的发现确立了投射到后隔核的 CA1 神经元作为一类独特的长程树突靶向 GABA 能神经元，并描绘了一个用于整合长程抑制和丘脑皮质兴奋的特殊皮质回路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1dc3/6435388/5c4bdb6a89e0/nihms-1520812-f0001.jpg

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长程抑制性逆行扣带回丘脑皮质回路由顶端树突靶向 CA1 神经元介导。

Long-range inhibitory intersection of a retrosplenial thalamocortical circuit by apical tuft-targeting CA1 neurons.

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