Hippocampal gamma-frequency oscillations: from interneurones to pyramidal cells and back

机译：海马伽马频率振荡：从中间神经元到锥体细胞然后返回

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摘要

GABAergic interneurones are necessary for the emergence of hippocampal gamma-frequency network oscillations, during which they play a key role in the synchronization of pyramidal cell firing. However, it remains to be resolved how distinct interneurone subtypes contribute to gamma-frequency oscillations, in what way the spatiotemporal pattern of interneuronal input affects principal cell activity, and by which mechanisms the interneurones themselves are synchronized. Here we summarize recent evidence from cholinergically induced gamma-frequency network oscillations in vitro, showing that perisomatic-targeting GABAergic interneurones provide prominent rhythmic inhibition in pyramidal cells, and that these interneurones are synchronized by recurrent excitation. We conclude by presenting a minimal integrate-and-fire network model which demonstrates that this excitatory-inhibitory feedback loop is sufficient to explain the generation of intrahippocampal gamma-frequency oscillations.

机译：GABA能性神经元对于海马γ-频率网络振荡的出现是必需的，在此期间它们在锥体细胞发射的同步中起关键作用。然而，仍然有待解决的是，不同的中间神经元亚型如何导致伽马频率振荡，中间神经元输入的时空模式如何影响主要细胞活性，以及中间神经元自身是通过哪种机制同步的。在这里，我们总结了胆碱能诱导的γ-频率网络体外振荡的最新证据，这些结果表明，针对异源靶向的GABA能性中间神经元在锥体细胞中提供了明显的节律抑制作用，并且这些中间神经元通过反复激发而同步化。最后，我们通过提出一个最小的集成和发射网络模型来证明该兴奋性抑制性反馈回路足以解释海马内伽马频率振荡的产生。

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期刊名称 The Journal of Physiology
作者
Edward O Mann; Catrin A Radcliffe; Ole Paulsen;
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作者单位

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年(卷),期 2005(562),Pt 1
年度 2005
页码 55–63
总页数 9
原文格式 PDF
正文语种
中图分类神经科学;人体生理学;
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专利

1. Hippocampal gamma-frequency oscillations: from interneurones to pyramidal cells, and back. [J] . Mann EO, Radcliffe CA, Paulsen O The Journal of Physiology . 2005,第Pta1期

机译：海马伽马频率振荡：从中间神经元到锥体细胞，然后返回。
2. Carbonic anhydrase isoform VII acts as a molecular switch in the development of synchronous gamma-frequency firing of hippocampal CA1 pyramidal cells. [J] . Ruusuvuori E, Li H, Huttu K, The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2004,第11期

机译：碳酸酐酶同工型VII在海马CA1锥体细胞同步伽马频率发射过程中充当分子开关。
3. Differential expression of Na+/K+-ATPase alpha-subunits in mouse hippocampal interneurones and pyramidal cells. [J] . Richards KS, Bommert K, Szabo G, The Journal of Physiology . 2007,第Pta2期

机译：Na + / K + -ATPaseα亚基在小鼠海马interneurones和锥体细胞中的差异表达。
4. Functional Differences Between the Spatio-temporal Learning Rule (STLR) and Hebb Type (HEBB) in Single Pyramidal Cells in the Hippocampal CA1 Area [C] . Minoru Tsukada, Yoshiyuki Yamazaki Neural Information Processing pt.1; Lecture Notes in Computer Science; 4232 . 2006

机译：海马CA1区单个锥体细胞时空学习规则（STLR）和赫布类型（HEBB）之间的功能差异。
5. Differential time course of loss of guinea pig cerebellar Purkinje cells and hippocampal CA1 pyramidal cells produced by chronic prenatal ethanol exposure and the role of apoptosis. [D] . McGoey, Tara Nadine. 2001

机译：豚鼠小脑浦肯野细胞和海马CA1锥体细胞的丢失在不同时间过程中所产生的慢性产前乙醇暴露和凋亡的作用。
6. Carbonic Anhydrase Isoform VII Acts as a Molecular Switch in the Development of Synchronous Gamma-Frequency Firing of Hippocampal CA1 Pyramidal Cells [O] . Eva Ruusuvuori, Hong Li, Kristiina Huttu, 2004

机译：碳酸酐酶同工型VII充当海马CA1金字塔形细胞同步γ频率发射的分子开关。
7. Hippocampal gamma-frequency oscillations: From interneurones to pyramidal cells, and back [O] . Mann, EO, Radcliffe, CA, Paulsen, O 2005

机译：海马伽马频率振荡：从中间神经元到锥体细胞，然后返回

Hippocampal gamma-frequency oscillations: from interneurones to pyramidal cells and back

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