Perisomatic GABAergic synapses of basket cells effectively control principal neuron activity in amygdala networks

Perisomatic GABAergic synapses of basket cells effectively control principal neuron activity in amygdala networks

Efficient control of principal neuron firing by basket cells is critical for information processing in cortical microcircuits, however, the relative contribution of their perisomatic and dendritic synapses to spike inhibition is still unknown. Using in vitro electrophysiological paired recordings we...

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Main Authors: Judit M Veres, Gergő A Nagy, Norbert Hájos
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2017-01-01
Series:eLife
Subjects:
interneuron
synaptic terminals
inhibition
cortical networks
Online Access:https://elifesciences.org/articles/20721
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spelling doaj-cc0dcff0812446da8bf7ed6c5230cabc2021-05-05T13:10:06ZengeLife Sciences Publications LtdeLife2050-084X2017-01-01610.7554/eLife.20721Perisomatic GABAergic synapses of basket cells effectively control principal neuron activity in amygdala networksJudit M Veres0Gergő A Nagy1Norbert Hájos2https://orcid.org/0000-0002-4582-2708'Lendület' Laboratory of Network Neurophysiology, Institute of Experimental Medicine, Hungarian Academy of Sciences, Budapest, Hungary; János Szentágothai School of Neurosciences, Semmelweis University, Budapest, Hungary'Lendület' Laboratory of Network Neurophysiology, Institute of Experimental Medicine, Hungarian Academy of Sciences, Budapest, Hungary'Lendület' Laboratory of Network Neurophysiology, Institute of Experimental Medicine, Hungarian Academy of Sciences, Budapest, HungaryEfficient control of principal neuron firing by basket cells is critical for information processing in cortical microcircuits, however, the relative contribution of their perisomatic and dendritic synapses to spike inhibition is still unknown. Using in vitro electrophysiological paired recordings we reveal that in the mouse basal amygdala cholecystokinin- and parvalbumin-containing basket cells provide equally potent control of principal neuron spiking. We performed pharmacological manipulations, light and electron microscopic investigations to show that, although basket cells innervate the entire somato-denditic membrane surface of principal neurons, the spike controlling effect is achieved primarily via the minority of synapses targeting the perisomatic region. As the innervation patterns of individual basket cells on their different postsynaptic partners show high variability, the impact of inhibitory control accomplished by single basket cells is also variable. Our results show that both basket cell types can powerfully regulate the activity in amygdala networks predominantly via their perisomatic synapses.https://elifesciences.org/articles/20721interneuronsynaptic terminalsinhibitioncortical networks
collection DOAJ
language English
format Article
sources DOAJ
author Judit M Veres
Gergő A Nagy
Norbert Hájos
spellingShingle Judit M Veres
Gergő A Nagy
Norbert Hájos
Perisomatic GABAergic synapses of basket cells effectively control principal neuron activity in amygdala networks
eLife
interneuron
synaptic terminals
inhibition
cortical networks
author_facet Judit M Veres
Gergő A Nagy
Norbert Hájos
author_sort Judit M Veres
title Perisomatic GABAergic synapses of basket cells effectively control principal neuron activity in amygdala networks
title_short Perisomatic GABAergic synapses of basket cells effectively control principal neuron activity in amygdala networks
title_full Perisomatic GABAergic synapses of basket cells effectively control principal neuron activity in amygdala networks
title_fullStr Perisomatic GABAergic synapses of basket cells effectively control principal neuron activity in amygdala networks
title_full_unstemmed Perisomatic GABAergic synapses of basket cells effectively control principal neuron activity in amygdala networks
title_sort perisomatic gabaergic synapses of basket cells effectively control principal neuron activity in amygdala networks
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2017-01-01
description Efficient control of principal neuron firing by basket cells is critical for information processing in cortical microcircuits, however, the relative contribution of their perisomatic and dendritic synapses to spike inhibition is still unknown. Using in vitro electrophysiological paired recordings we reveal that in the mouse basal amygdala cholecystokinin- and parvalbumin-containing basket cells provide equally potent control of principal neuron spiking. We performed pharmacological manipulations, light and electron microscopic investigations to show that, although basket cells innervate the entire somato-denditic membrane surface of principal neurons, the spike controlling effect is achieved primarily via the minority of synapses targeting the perisomatic region. As the innervation patterns of individual basket cells on their different postsynaptic partners show high variability, the impact of inhibitory control accomplished by single basket cells is also variable. Our results show that both basket cell types can powerfully regulate the activity in amygdala networks predominantly via their perisomatic synapses.
topic interneuron
synaptic terminals
inhibition
cortical networks
url https://elifesciences.org/articles/20721
work_keys_str_mv AT juditmveres perisomaticgabaergicsynapsesofbasketcellseffectivelycontrolprincipalneuronactivityinamygdalanetworks
AT gergoanagy perisomaticgabaergicsynapsesofbasketcellseffectivelycontrolprincipalneuronactivityinamygdalanetworks
AT norberthajos perisomaticgabaergicsynapsesofbasketcellseffectivelycontrolprincipalneuronactivityinamygdalanetworks
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