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Abstract Hippocampal network activity at theta frequencies (5-10Hz) is important for behavior. However, it remains unclear how behaviorally-relevant network theta rhythms arise and interact with cellular dynamics to dictate spike timing. We performed membrane voltage (Vm) imaging of individual CA1 pyramidal cells and parvalbumin interneurons with simultaneous local field potential (LFP) recordings in mice during locomotion. We found that Vm theta rhythms organize spike timing in both cell types regardless of behavioral conditions, but the Vm of parvalbumin interneurons is better synchronized with LFP. The temporal relationships between spikes and LFP theta reliably reflect the Vm-LFP relationships in parvalbumin cells, but not in pyramidal cells. Thus, cellular theta rhythms broadly organize spike timing in CA1 neurons, and parvalbumin interneurons are critical in coordinating network theta rhythms. One-Sentence SummaryCellular membrane voltage of parvalbumin interneurons organizes spiking and network dynamics in the hippocampus.
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Lowet, Eric; Sheehan, Daniel J.; Chialva, Ulises; De Oliveira Pena, Rodrigo; Mount, Rebecca A.; Xiao, Sheng; Zhou, Samuel L.; Tseng, Hua-an; Gritton, Howard; Shroff, Sanaya; et al (, Cell Reports)
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Zemel, Dana; Gritton, Howard; Cheung, Cyrus; Shankar, Sneha; Kramer, Mark; Han, Xue (, Cell Reports)
