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CA1 海马区 VIP 表达中间神经元在网络状态依赖募集中的突触机制。

Synaptic Mechanisms Underlying the Network State-Dependent Recruitment of VIP-Expressing Interneurons in the CA1 Hippocampus.

机构信息

Department of Biochemistry, Microbiology and Bio-informatics, Laval University, Québec, PQ, Canada.

Neuroscience Axis, CHU de Québec Research Center (CHUL), Québec, PQ, Canada.

出版信息

Cereb Cortex. 2020 May 18;30(6):3667-3685. doi: 10.1093/cercor/bhz334.

DOI:10.1093/cercor/bhz334
PMID:32080739
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7233006/
Abstract

Disinhibition is a widespread circuit mechanism for information selection and transfer. In the hippocampus, disinhibition of principal cells is provided by the interneuron-specific interneurons that express the vasoactive intestinal polypeptide (VIP-IS) and innervate selectively inhibitory interneurons. By combining optophysiological experiments with computational models, we determined the impact of synaptic inputs onto the network state-dependent recruitment of VIP-IS cells. We found that VIP-IS cells fire spikes in response to both the Schaffer collateral and the temporoammonic pathway activation. Moreover, by integrating their intrinsic and synaptic properties into computational models, we predicted recruitment of these cells between the rising phase and peak of theta oscillation and during ripples. Two-photon Ca2+-imaging in awake mice supported in part the theoretical predictions, revealing a significant speed modulation of VIP-IS cells and their preferential albeit delayed recruitment during theta-run epochs, with estimated firing at the rising phase and peak of the theta cycle. However, it also uncovered that VIP-IS cells are not activated during ripples. Thus, given the preferential theta-modulated firing of VIP-IS cells in awake hippocampus, we postulate that these cells may be important for information gating during spatial navigation and memory encoding.

摘要

去抑制作用是信息选择和传递的一种广泛存在的回路机制。在海马体中,通过表达血管活性肠肽 (VIP-IS) 的特定于中间神经元的中间神经元来提供主细胞的去抑制作用,并选择性地支配抑制性中间神经元。通过将光生理实验与计算模型相结合,我们确定了突触输入对网络状态依赖性 VIP-IS 细胞募集的影响。我们发现 VIP-IS 细胞对 Schaffer 侧支和颞极通路的激活均会产生尖峰。此外,通过将其内在和突触特性整合到计算模型中,我们预测这些细胞在θ振荡的上升相和峰值之间以及在涟漪期间被募集。在清醒小鼠中的双光子 Ca2+成像部分支持了这一理论预测,揭示了 VIP-IS 细胞的显著速度调制,以及它们在 θ 运行期间的优先但延迟募集,在 θ 周期的上升相和峰值处估计有放电。然而,它也揭示了 VIP-IS 细胞在涟漪期间不会被激活。因此,鉴于 VIP-IS 细胞在清醒海马体中优先被θ调制放电,我们假设这些细胞可能在空间导航和记忆编码期间的信息门控中很重要。

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Calcium Dynamics in Dendrites of Hippocampal CA1 Interneurons in Awake Mice.清醒小鼠海马CA1中间神经元树突中的钙动力学
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Deciphering the Contribution of Oriens-Lacunosum/Moleculare (OLM) Cells to Intrinsic θ Rhythms Using Biophysical Local Field Potential (LFP) Models.解析 Oriens-Lacunosum/Moleculare(OLM)细胞对固有 θ 节律的贡献:使用生物物理局部场电位(LFP)模型。
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