GABAergic interneurons expressing the α2 nicotinic receptor subunit are functionally integrated in the striatal microcircuit

GABAergic interneurons expressing the α2 nicotinic receptor subunit are functionally integrated in the striatal microcircuit

The interactions between the striatal cholinergic and GABAergic systems are crucial in shaping reward-related behavior and reinforcement learning; however, the synaptic pathways mediating them are largely unknown. Here, we use Chrna2-Cre mice to characterize striatal interneurons (INs) expressing th...

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Veröffentlicht in:Cell reports (Cambridge) 2022-05, Vol.39 (8), p.110842-110842, Article 110842
Hauptverfasser: Tokarska, Anna, Silberberg, Gilad
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Sprache:eng
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Animals
Cholinergic Agents - metabolism
cholinergic interneurons
Corpus Striatum - metabolism
cortex
corticostriatal
gabaergic interneurons
GABAergic Neurons - metabolism
inhibition
Interneurons - metabolism
Mice
Mice, Transgenic
nicotinic receptor
Optogenetics
patch-clamp
Receptors, Nicotinic - metabolism
striatum
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Silberberg, Gilad
description The interactions between the striatal cholinergic and GABAergic systems are crucial in shaping reward-related behavior and reinforcement learning; however, the synaptic pathways mediating them are largely unknown. Here, we use Chrna2-Cre mice to characterize striatal interneurons (INs) expressing the nicotinic α2 receptor subunit. Using triple patch-clamp recordings combined with optogenetic stimulations, we characterize the electrophysiological, morphological, and synaptic properties of striatal Chrna2-INs. Striatal Chrna2-INs have diverse electrophysiological properties, distinct from their counterparts in other brain regions, including the hippocampus and neocortex. Unlike in other regions, most striatal Chrna2-INs are fast-spiking INs expressing parvalbumin. Striatal Chrna2-INs are intricately integrated in the striatal microcircuit, forming inhibitory synaptic connections with striatal projection neurons and INs, including other Chrna2-INs. They receive excitatory inputs from primary motor cortex mediated by both AMPA and NMDA receptors. A subpopulation of Chrna2-INs responds to nicotinic input, suggesting reciprocal interactions between this GABAergic interneuron population and striatal cholinergic synapses. [Display omitted] •Triple whole-cell recordings are used to study striatal interneurons in Chrna2-Cre mice•Unlike in other brain regions, most striatal Chrna2-interneurons express parvalbumin•Three distinct subtypes of striatal Chrna2-interneurons are defined•Their synaptic connectivity is mapped using optogenetics and patch-clamp recordings Tokarska and Silberberg characterize the cellular and circuit properties of striatal interneurons expressing Chrna2, the gene encoding for the nicotinic α2 receptor subunit. Using multineuron whole-cell recordings and optogenetic stimulations, they find that striatal Chrna2-interneurons form a diverse neuronal population that is distinct from Chrna2 neurons in other brain regions.
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Here, we use Chrna2-Cre mice to characterize striatal interneurons (INs) expressing the nicotinic α2 receptor subunit. Using triple patch-clamp recordings combined with optogenetic stimulations, we characterize the electrophysiological, morphological, and synaptic properties of striatal Chrna2-INs. Striatal Chrna2-INs have diverse electrophysiological properties, distinct from their counterparts in other brain regions, including the hippocampus and neocortex. Unlike in other regions, most striatal Chrna2-INs are fast-spiking INs expressing parvalbumin. Striatal Chrna2-INs are intricately integrated in the striatal microcircuit, forming inhibitory synaptic connections with striatal projection neurons and INs, including other Chrna2-INs. They receive excitatory inputs from primary motor cortex mediated by both AMPA and NMDA receptors. A subpopulation of Chrna2-INs responds to nicotinic input, suggesting reciprocal interactions between this GABAergic interneuron population and striatal cholinergic synapses. [Display omitted] •Triple whole-cell recordings are used to study striatal interneurons in Chrna2-Cre mice•Unlike in other brain regions, most striatal Chrna2-interneurons express parvalbumin•Three distinct subtypes of striatal Chrna2-interneurons are defined•Their synaptic connectivity is mapped using optogenetics and patch-clamp recordings Tokarska and Silberberg characterize the cellular and circuit properties of striatal interneurons expressing Chrna2, the gene encoding for the nicotinic α2 receptor subunit. Using multineuron whole-cell recordings and optogenetic stimulations, they find that striatal Chrna2-interneurons form a diverse neuronal population that is distinct from Chrna2 neurons in other brain regions.</description><identifier>ISSN: 2211-1247</identifier><identifier>EISSN: 2211-1247</identifier><identifier>DOI: 10.1016/j.celrep.2022.110842</identifier><identifier>PMID: 35613598</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Animals ; Cholinergic Agents - metabolism ; cholinergic interneurons ; Corpus Striatum - metabolism ; cortex ; corticostriatal ; gabaergic interneurons ; GABAergic Neurons - metabolism ; inhibition ; Interneurons - metabolism ; Mice ; Mice, Transgenic ; nicotinic receptor ; Optogenetics ; patch-clamp ; Receptors, Nicotinic - metabolism ; striatum</subject><ispartof>Cell reports (Cambridge), 2022-05, Vol.39 (8), p.110842-110842, Article 110842</ispartof><rights>2022 The Authors</rights><rights>Copyright © 2022 The Authors. 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Here, we use Chrna2-Cre mice to characterize striatal interneurons (INs) expressing the nicotinic α2 receptor subunit. Using triple patch-clamp recordings combined with optogenetic stimulations, we characterize the electrophysiological, morphological, and synaptic properties of striatal Chrna2-INs. Striatal Chrna2-INs have diverse electrophysiological properties, distinct from their counterparts in other brain regions, including the hippocampus and neocortex. Unlike in other regions, most striatal Chrna2-INs are fast-spiking INs expressing parvalbumin. Striatal Chrna2-INs are intricately integrated in the striatal microcircuit, forming inhibitory synaptic connections with striatal projection neurons and INs, including other Chrna2-INs. They receive excitatory inputs from primary motor cortex mediated by both AMPA and NMDA receptors. A subpopulation of Chrna2-INs responds to nicotinic input, suggesting reciprocal interactions between this GABAergic interneuron population and striatal cholinergic synapses. [Display omitted] •Triple whole-cell recordings are used to study striatal interneurons in Chrna2-Cre mice•Unlike in other brain regions, most striatal Chrna2-interneurons express parvalbumin•Three distinct subtypes of striatal Chrna2-interneurons are defined•Their synaptic connectivity is mapped using optogenetics and patch-clamp recordings Tokarska and Silberberg characterize the cellular and circuit properties of striatal interneurons expressing Chrna2, the gene encoding for the nicotinic α2 receptor subunit. 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Here, we use Chrna2-Cre mice to characterize striatal interneurons (INs) expressing the nicotinic α2 receptor subunit. Using triple patch-clamp recordings combined with optogenetic stimulations, we characterize the electrophysiological, morphological, and synaptic properties of striatal Chrna2-INs. Striatal Chrna2-INs have diverse electrophysiological properties, distinct from their counterparts in other brain regions, including the hippocampus and neocortex. Unlike in other regions, most striatal Chrna2-INs are fast-spiking INs expressing parvalbumin. Striatal Chrna2-INs are intricately integrated in the striatal microcircuit, forming inhibitory synaptic connections with striatal projection neurons and INs, including other Chrna2-INs. They receive excitatory inputs from primary motor cortex mediated by both AMPA and NMDA receptors. A subpopulation of Chrna2-INs responds to nicotinic input, suggesting reciprocal interactions between this GABAergic interneuron population and striatal cholinergic synapses. [Display omitted] •Triple whole-cell recordings are used to study striatal interneurons in Chrna2-Cre mice•Unlike in other brain regions, most striatal Chrna2-interneurons express parvalbumin•Three distinct subtypes of striatal Chrna2-interneurons are defined•Their synaptic connectivity is mapped using optogenetics and patch-clamp recordings Tokarska and Silberberg characterize the cellular and circuit properties of striatal interneurons expressing Chrna2, the gene encoding for the nicotinic α2 receptor subunit. 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subjects Animals
Cholinergic Agents - metabolism
cholinergic interneurons
Corpus Striatum - metabolism
cortex
corticostriatal
gabaergic interneurons
GABAergic Neurons - metabolism
inhibition
Interneurons - metabolism
Mice
Mice, Transgenic
nicotinic receptor
Optogenetics
patch-clamp
Receptors, Nicotinic - metabolism
striatum
title GABAergic interneurons expressing the α2 nicotinic receptor subunit are functionally integrated in the striatal microcircuit
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