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Synchronization of neuronal activity in hippocampus by individual GABAergic interneurons

Abstract

SYNCHRONIZATION of neuronal activity is fundamental in the operation of cortical networks1. With respect to an ongoing synchronized oscillation, the precise timing of action potentials is an attractive candidate mechanism for information coding2–5. Networks of inhibitory interneurons have been proposed to have a role in entraining cortical, synchronized 40-Hz activity6,7. Here we demonstrate that individual GABAergic interneurons8 can effectively phase spontaneous firing and subthreshold oscillations in hippocampal pyramidal cells at θ frequencies (4–7 Hz). The efficiency of this entrainment is due to interaction of GABAA-receptor-mediated hyperpolarizing synaptic events with intrinsic oscillatory mechanisms tuned to this frequency range in pyramidal cells. Moreover, this GABAergic mechanism is sufficient to synchronize the firing of pyramidal cells. Thus, owing to the divergence of each GABAergic interneuron9,10, more than a thousand pyramidal cells may share a common temporal reference established by an individual interneuron.

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Cobb, S., Buhl, E., Halasy, K. et al. Synchronization of neuronal activity in hippocampus by individual GABAergic interneurons. Nature 378, 75–78 (1995). https://doi.org/10.1038/378075a0

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