在体外诱导内嗅海马网络中的θ振荡。

Inducing theta oscillations in the entorhinal hippocampal network in vitro.

作者信息

Gu Zhenglin, Yakel Jerrel L

机构信息

Neurobiology Laboratory, National Institute of Environment Health Sciences, National Institutes of Health, Department of Health and Human Services, P.O. Box 12233, Mail Drop F2-08, Research Triangle Park, NC, 27709, USA.

出版信息

Brain Struct Funct. 2017 Mar;222(2):943-955. doi: 10.1007/s00429-016-1256-3. Epub 2016 Jul 1.

DOI:10.1007/s00429-016-1256-3

PMID:27369465

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5203980/

Abstract

The hippocampal theta rhythm emerges as rhythmic and synchronized activities among the hippocampus and hippocampus-associated brain regions during active exploration, providing a potential means for inter-regional communication. However, after decades of research, the origins of the theta rhythm remain elusive, at least partly due to the difficulty in recording from all three essential regions for theta generation, namely the hippocampus itself, the septum, and the entorhinal cortex. For this reason, we established an in vitro theta model in a septo-entorhinal-hippocampal brain slice tri-culture system by pairing septal cholinergic inputs with hippocampal local activities. Our study shows that the local entorhinal cortical circuit may play an active and critical role in hippocampal theta rhythm generation. Our study also reveals a potential mechanism for theta rhythms to emerge as the functional results of dynamic interactions among the septum, hippocampus, and the entorhinal cortex, in the absence of clear pace makers.

摘要

海马体θ节律在主动探索过程中表现为海马体及与海马体相关的脑区之间有节奏的同步活动，为区域间通信提供了一种潜在方式。然而，经过数十年的研究，θ节律的起源仍然难以捉摸，至少部分原因是难以从θ节律产生的三个关键区域进行记录，这三个区域分别是海马体本身、隔区和内嗅皮质。基于此，我们通过将隔区胆碱能输入与海马体局部活动配对，在隔区-内嗅皮质-海马体脑片三培养系统中建立了一个体外θ模型。我们的研究表明，局部内嗅皮质回路可能在海马体θ节律产生中发挥积极且关键的作用。我们的研究还揭示了一种潜在机制，即在没有明确起搏器的情况下，θ节律作为隔区、海马体和内嗅皮质之间动态相互作用的功能结果而出现。

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