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Prolonged Disynaptic Inhibition in the Cortex Mediated by Slow, Non-α7 Nicotinic Excitation of a Specific Subset of Cortical Interneurons

Sergio Arroyo, Corbett Bennett, David Aziz, Solange P. Brown and Shaul Hestrin
Journal of Neuroscience 14 March 2012, 32 (11) 3859-3864; DOI: https://doi.org/10.1523/JNEUROSCI.0115-12.2012

Abstract

Cholinergic activation of nicotinic receptors in the cortex plays a critical role in arousal, attention, and learning. Here we demonstrate that cholinergic axons from the basal forebrain of mice excite a specific subset of cortical interneurons via a remarkably slow, non-α7 nicotinic receptor-mediated conductance. In turn, these inhibitory cells generate a delayed and prolonged wave of disynaptic inhibition in neighboring cortical neurons, altering the spatiotemporal pattern of inhibition in cortical circuits.

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Prolonged Disynaptic Inhibition in the Cortex Mediated by Slow, Non-α7 Nicotinic Excitation of a Specific Subset of Cortical Interneurons
Sergio Arroyo, Corbett Bennett, David Aziz, Solange P. Brown, Shaul Hestrin
Journal of Neuroscience 14 March 2012, 32 (11) 3859-3864; DOI: 10.1523/JNEUROSCI.0115-12.2012
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