齿状突起时的离线海马再激活支持灵活记忆

IF 14.7 1区 医学 Q1 NEUROSCIENCES Neuron Pub Date : 2024-11-20 Epub Date: 2024-09-24 DOI:10.1016/j.neuron.2024.08.022
Stephen B McHugh, Vítor Lopes-Dos-Santos, Manfredi Castelli, Giuseppe P Gava, Sophie E Thompson, Shu K E Tam, Katja Hartwich, Brook Perry, Robert Toth, Timothy Denison, Andrew Sharott, David Dupret
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引用次数: 0

摘要

稳定新记忆需要睡眠期间协调的神经元尖峰活动。海马胼胝体(CA)区域的锐波涟漪(SWR)和齿状回(DG)的齿状尖峰(DSs)是支持这一离线过程的主要候选网络事件。SWRs 已被广泛研究,但 DSs 的贡献仍不清楚。通过在小鼠体内结合三重组合(DG-CA3-CA1)记录和闭环光遗传学,我们发现,与SWRs一样,DSs也会同步DG和CA主细胞的尖峰突触,以重新激活在先前的清醒体验中表达的神经元群体级共激活模式。值得注意的是,DSs 中的群体协同活动结构比 SWRs 中的结构更多样化、维度更高。重要的是,在DSs期间选择性地抑制DG颗粒细胞尖峰,会损害随后在多物体识别任务中的灵活记忆表现以及相关的海马神经元共激活模式。我们的结论是,DSs 构成了第二个离线网络事件,它是海马群体动力学的核心,服务于记忆引导的行为。
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Offline hippocampal reactivation during dentate spikes supports flexible memory.

Stabilizing new memories requires coordinated neuronal spiking activity during sleep. Hippocampal sharp-wave ripples (SWRs) in the cornu ammonis (CA) region and dentate spikes (DSs) in the dentate gyrus (DG) are prime candidate network events for supporting this offline process. SWRs have been studied extensively, but the contribution of DSs remains unclear. By combining triple-ensemble (DG-CA3-CA1) recordings and closed-loop optogenetics in mice, we show that, like SWRs, DSs synchronize spiking across DG and CA principal cells to reactivate population-level patterns of neuronal coactivity expressed during prior waking experience. Notably, the population coactivity structure in DSs is more diverse and higher dimensional than that seen during SWRs. Importantly, suppressing DG granule cell spiking selectively during DSs impairs subsequent flexible memory performance during multi-object recognition tasks and associated hippocampal patterns of neuronal coactivity. We conclude that DSs constitute a second offline network event central to hippocampal population dynamics serving memory-guided behavior.

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来源期刊
Neuron
Neuron 医学-神经科学
CiteScore
24.50
自引率
3.10%
发文量
382
审稿时长
1 months
期刊介绍: Established as a highly influential journal in neuroscience, Neuron is widely relied upon in the field. The editors adopt interdisciplinary strategies, integrating biophysical, cellular, developmental, and molecular approaches alongside a systems approach to sensory, motor, and higher-order cognitive functions. Serving as a premier intellectual forum, Neuron holds a prominent position in the entire neuroscience community.
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