γ1-Containing GABA-A Receptors Cluster at Synapses Where they Mediate Slower Synaptic Currents than γ2-Containing GABA-A Receptors

γ1-Containing GABA-A Receptors Cluster at Synapses Where they Mediate Slower Synaptic Currents than γ2-Containing GABA-A Receptors

GABA-A receptors (GABAARs) are pentameric ligand-gated ion channels that are assembled mainly from α (α1–6), β (β1–3) and γ (γ1–3) subunits. Although GABAARs containing γ2L subunits mediate most of the inhibitory neurotransmission in the brain, significant expression of γ1 subunits is seen in the am...

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Main Authors: Christine L. Dixon, Pankaj Sah, Angelo Keramidas, Joseph W. Lynch, Nela Durisic
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-06-01
Series:Frontiers in Molecular Neuroscience
Subjects:
γ1-subunit clustering
inhibitory neurotransmission
synapse
spillover
IPSC
artificial synapse
Online Access:http://journal.frontiersin.org/article/10.3389/fnmol.2017.00178/full
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spelling doaj-20bd8340b2a24ff3bddec4af12a345f12020-11-24T21:19:51ZengFrontiers Media S.A.Frontiers in Molecular Neuroscience1662-50992017-06-011010.3389/fnmol.2017.00178261733γ1-Containing GABA-A Receptors Cluster at Synapses Where they Mediate Slower Synaptic Currents than γ2-Containing GABA-A ReceptorsChristine L. Dixon0Pankaj Sah1Angelo Keramidas2Joseph W. Lynch3Joseph W. Lynch4Nela Durisic5Queensland Brain Institute, The University of QueenslandBrisbane, QLD, AustraliaQueensland Brain Institute, The University of QueenslandBrisbane, QLD, AustraliaQueensland Brain Institute, The University of QueenslandBrisbane, QLD, AustraliaQueensland Brain Institute, The University of QueenslandBrisbane, QLD, AustraliaSchool of Biomedical Sciences, The University of QueenslandBrisbane, QLD, AustraliaQueensland Brain Institute, The University of QueenslandBrisbane, QLD, AustraliaGABA-A receptors (GABAARs) are pentameric ligand-gated ion channels that are assembled mainly from α (α1–6), β (β1–3) and γ (γ1–3) subunits. Although GABAARs containing γ2L subunits mediate most of the inhibitory neurotransmission in the brain, significant expression of γ1 subunits is seen in the amygdala, pallidum and substantia nigra. However, the location and function of γ1-containing GABAARs in these regions remains unclear. In “artificial” synapses, where the subunit composition of postsynaptic receptors is specifically controlled, γ1 incorporation slows the synaptic current decay rate without affecting channel deactivation, suggesting that γ1-containing receptors are not clustered and therefore activated by diffuse neurotransmitter. However, we show that γ1-containing receptors are localized at neuronal synapses and form clusters in both synaptic and extrasynaptic regions. In addition, they exhibit rapid membrane diffusion and a higher frequency of exchange between synaptic and perisynaptic populations compared to γ2L-containing GABAARs. A point mutation in the large intracellular domain and a pharmacological analysis reveal that when a single non-conserved γ2L residue is mutated to its γ1 counterpart (T349L), the synaptic current decay is slowed from γ2L- to γ1-like without changing the clustering or diffusion properties of the receptors. In addition, previous fast perfusion and single channel kinetic experiments revealed no difference in the intrinsic closing rates of γ2L- and γ1-containing receptors when expressed in HEK293 cells. These observations together with Monte Carlo simulations of synaptic function confirm that decreased clustering does not control γ1-containing GABAAR kinetics. Rather, they suggest that γ1- and γ2L-containing receptors exhibit differential synaptic current decay rates due to differential gating dynamics when localized at the synapse.http://journal.frontiersin.org/article/10.3389/fnmol.2017.00178/fullγ1-subunit clusteringinhibitory neurotransmissionsynapsespilloverIPSCartificial synapse
collection DOAJ
language English
format Article
sources DOAJ
author Christine L. Dixon
Pankaj Sah
Angelo Keramidas
Joseph W. Lynch
Joseph W. Lynch
Nela Durisic
spellingShingle Christine L. Dixon
Pankaj Sah
Angelo Keramidas
Joseph W. Lynch
Joseph W. Lynch
Nela Durisic
γ1-Containing GABA-A Receptors Cluster at Synapses Where they Mediate Slower Synaptic Currents than γ2-Containing GABA-A Receptors
Frontiers in Molecular Neuroscience
γ1-subunit clustering
inhibitory neurotransmission
synapse
spillover
IPSC
artificial synapse
author_facet Christine L. Dixon
Pankaj Sah
Angelo Keramidas
Joseph W. Lynch
Joseph W. Lynch
Nela Durisic
author_sort Christine L. Dixon
title γ1-Containing GABA-A Receptors Cluster at Synapses Where they Mediate Slower Synaptic Currents than γ2-Containing GABA-A Receptors
title_short γ1-Containing GABA-A Receptors Cluster at Synapses Where they Mediate Slower Synaptic Currents than γ2-Containing GABA-A Receptors
title_full γ1-Containing GABA-A Receptors Cluster at Synapses Where they Mediate Slower Synaptic Currents than γ2-Containing GABA-A Receptors
title_fullStr γ1-Containing GABA-A Receptors Cluster at Synapses Where they Mediate Slower Synaptic Currents than γ2-Containing GABA-A Receptors
title_full_unstemmed γ1-Containing GABA-A Receptors Cluster at Synapses Where they Mediate Slower Synaptic Currents than γ2-Containing GABA-A Receptors
title_sort γ1-containing gaba-a receptors cluster at synapses where they mediate slower synaptic currents than γ2-containing gaba-a receptors
publisher Frontiers Media S.A.
series Frontiers in Molecular Neuroscience
issn 1662-5099
publishDate 2017-06-01
description GABA-A receptors (GABAARs) are pentameric ligand-gated ion channels that are assembled mainly from α (α1–6), β (β1–3) and γ (γ1–3) subunits. Although GABAARs containing γ2L subunits mediate most of the inhibitory neurotransmission in the brain, significant expression of γ1 subunits is seen in the amygdala, pallidum and substantia nigra. However, the location and function of γ1-containing GABAARs in these regions remains unclear. In “artificial” synapses, where the subunit composition of postsynaptic receptors is specifically controlled, γ1 incorporation slows the synaptic current decay rate without affecting channel deactivation, suggesting that γ1-containing receptors are not clustered and therefore activated by diffuse neurotransmitter. However, we show that γ1-containing receptors are localized at neuronal synapses and form clusters in both synaptic and extrasynaptic regions. In addition, they exhibit rapid membrane diffusion and a higher frequency of exchange between synaptic and perisynaptic populations compared to γ2L-containing GABAARs. A point mutation in the large intracellular domain and a pharmacological analysis reveal that when a single non-conserved γ2L residue is mutated to its γ1 counterpart (T349L), the synaptic current decay is slowed from γ2L- to γ1-like without changing the clustering or diffusion properties of the receptors. In addition, previous fast perfusion and single channel kinetic experiments revealed no difference in the intrinsic closing rates of γ2L- and γ1-containing receptors when expressed in HEK293 cells. These observations together with Monte Carlo simulations of synaptic function confirm that decreased clustering does not control γ1-containing GABAAR kinetics. Rather, they suggest that γ1- and γ2L-containing receptors exhibit differential synaptic current decay rates due to differential gating dynamics when localized at the synapse.
topic γ1-subunit clustering
inhibitory neurotransmission
synapse
spillover
IPSC
artificial synapse
url http://journal.frontiersin.org/article/10.3389/fnmol.2017.00178/full
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