Gamma rhythm communication between entorhinal cortex and dentate gyms neuronal assemblies

Fernandez-Ruiz Antonio; Oliva Azahara; Soula Marisol; Rocha-Almeida Florbela; Nagy Gergo A.; Martin-Vazquez Gonzalo; Buzsaki Gyorgy

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Gamma rhythm communication between entorhinal cortex and dentate gyms neuronal assemblies

机译：Entorhinal皮质和牙齿健身房之间的伽马节奏通信神经元组件

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Gamma oscillations are thought to coordinate the spike timing of functionally specialized neuronal ensembles across brain regions. To test this hypothesis, we optogenetically perturbed gamma spike timing in the rat medial (MEC) and lateral (LEC) entorhinal cortices and found impairments in spatial and object learning tasks, respectively. MEC and LEC were synchronized with the hippocampal dentate gyrus through high- and low-gamma-frequency rhythms, respectively, and engaged either granule cells or mossy cells and CA3 pyramidal cells in a task-dependent manner. Gamma perturbation disrupted the learning-induced assembly organization of target neurons. Our findings imply that pathway-specific gamma oscillations route task-relevant information between distinct neuronal subpopulations in the entorhinal-hippocampal circuit. We hypothesize that interregional gamma-time-scale spike coordination is a mechanism of neuronal communication.

机译：伽马振荡被认为协调脑区功能专门的神经元集合的峰值时序。为了测试这一假设，我们在大鼠内侧（MEC）和横向（LEC）梭形皮质中的伽马尖峰定时分别在异形和对象学习任务中发现损伤。 MEC和LEC分别通过高γ和低γ致频谱与海马齿状旋转物同步，并以任务依赖性方式与颗粒细胞或苔藓细胞和CA3金字塔细胞接合。伽玛扰动中断了学习诱导的靶神经元组织组织。我们的研究结果意味着途径特异性伽马振荡路线在Entorlinal-hippampal电路中不同神经元群之间的任务相关信息。我们假设区域间伽马时级尖峰协调是神经元通信的机制。

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《Science》 |2021年第6537期|50-50|共1页
作者
Fernandez-Ruiz Antonio; Oliva Azahara; Soula Marisol; Rocha-Almeida Florbela; Nagy Gergo A.; Martin-Vazquez Gonzalo; Buzsaki Gyorgy;
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作者单位

NYU Neurosci Inst 550 1St Ave New York NY 10016 USA|Cornell Univ Dept Neurobiol & Behav Ithaca NY 14853 USA;

NYU Neurosci Inst 550 1St Ave New York NY 10016 USA|Columbia Univ Zuckerman Mind Brain Behav Inst Dept Neurosci New York NY 10027 USA;

NYU Neurosci Inst 550 1St Ave New York NY 10016 USA;

NYU Neurosci Inst 550 1St Ave New York NY 10016 USA|Univ Pablo de Olavide Div Neurosci Seville 41013 Spain;

NYU Neurosci Inst 550 1St Ave New York NY 10016 USA|Hungarian Acad Sci Inst Expt Med Szigony Utca 43 H-1083 Budapest Hungary|Semmelweis Univ Janos Szentagothai Doctoral Sch Neurosci Ulloi Ut 26 H-1085 Budapest Hungary;

Univ Complutense Madrid Dept Theoret Phys Madrid 28040 Spain|Univ Francisco de Vitoria Sch Expt Sci Madrid 28223 Spain;

NYU Neurosci Inst 550 1St Ave New York NY 10016 USA|NYU Ctr Neural Sci New York NY 10016 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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专利

1. Nmda Receptor-dependent Switching Between Different Gamma Rhythm-generating Microcircuits In Entorhinal Cortex [J] . Steven Middleton, Jozsi Jalics, Tilman Kispersky, Proceedings of the National Academy of Sciences of the United States of America . 2008,第47期

机译：内嗅皮层中不同的γ节奏产生微电路之间的Nmda受体依赖性切换。
2. Evidence for spatial modules mediated by temporal synchronization of carbachol-induced gamma rhythm in medial entorhinal cortex. [J] . Dickson CT, Biella G, de-Curtis M The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2000,第20期

机译：内侧内嗅皮层中卡巴胆碱引起的伽马节律的时间同步介导的空间模块的证据。
3. Differential responsivity of neurons in perirhinal cortex, lateral entorhinal cortex, and dentate gyrus during time-bridging learning [J] . Suter Eugenie E., Weiss Craig, Disterhoft John F. Hippocampus . 2019,第6期

机译：在跨越延期学习期间菌根皮质，侧面梭形皮质，侧向梭形皮质和牙齿回转中神经元的差异响应性
4. Mechanisms for Memory-Guided Behavior Involving Persistent Firing and Theta Rhythm Oscillations in the Entorhinal Cortex [C] . Michael E. Hasselmo, Lisa M. Giocomo, Mark P. Brandon, International School on Neural Networks . 2008

机译：涉及持续射击和θTheTA节奏振荡的记忆引导行为的机制
5. Rhythm, resonance and reliability in oscillatory stellate cells of the entorhinal cortex. [D] . Haas, Julie Susan. 2003

机译：内嗅皮层的振荡星状细胞的节律，共振和可靠性。
6. NMDA receptor-dependent switching between different gamma rhythm-generating microcircuits in entorhinal cortex [O] . Steven Middleton, Jozsi Jalics, Tilman Kispersky, 2008

机译：内嗅皮层中不同的产生γ节律的微电路之间的NMDA受体依赖性切换
7. NMDA receptor-dependent switching between different gamma rhythm-generating microcircuits in entorhinal cortex [O] . Middleton, Steven, Jalics, Jozsi, Kispersky, Tilman, 2008

机译：内嗅皮层中不同的产生γ节律的微电路之间的NMDA受体依赖性切换

Gamma rhythm communication between entorhinal cortex and dentate gyms neuronal assemblies

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