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Synaptic GABAA receptors are directly recruited from their extrasynaptic counterparts.

Synaptic GABAA receptors are directly recruited from their extrasynaptic counterparts.
Synaptic GABAA receptors are directly recruited from their extrasynaptic counterparts.
GABAA receptors mediate the majority of fast synaptic inhibition in the brain. The accumulation of these ligand-gated ion channels at synaptic sites is a prerequisite for neuronal inhibition, but the molecular mechanisms underlying this phenomenon remain obscure. To further understand these processes, we have examined the cellular origins of synaptic GABAA receptors. To do so, we have created fluorescent GABAA receptors that are capable of binding α-bungarotoxin (Bgt), facilitating the visualization of receptor endocytosis, exocytosis and delivery to synaptic sites. Imaging with Bgt in hippocampal neurons revealed that GABAA receptor endocytosis occurred exclusively at extrasynaptic sites, consistent with the preferential colocalization of extrasynaptic receptors with the AP2 adaptin. Receptor insertion into the plasma membrane was also predominantly extrasynaptic, and pulse-chase analysis revealed that these newly inserted receptors were then able to access directly synaptic sites. Therefore, our results demonstrate that synaptic GABAA receptors are directly recruited from their extrasynaptic counterparts. Moreover, they illustrate a dynamic mechanism for neurons to modulate GABAA receptor number at inhibitory synapses by controlling the stability of extrasynaptic receptors.
0261-4189
4381-4389
Bogdanov, Y
0c970999-e191-4f1b-90d9-7bf25a5d5b4b
Michels, G
a773d3a7-5860-4b3c-896f-503384b0324b
Armstrong-Gold, C
a21f456b-9e80-4f96-a97d-f88024a37035
Haydon, PG
2c9f9351-7942-46cc-a341-aa484487ab03
Lindstrom, J
ae242f12-d24d-4f3a-85f7-46a0f7bbe750
Pangalos, M
ffcdc8fd-2293-4109-a8b4-c15de1d18670
Moss, SJ
b08b6bd5-ed4b-4cee-91de-b626d2f5f3db
Bogdanov, Y
0c970999-e191-4f1b-90d9-7bf25a5d5b4b
Michels, G
a773d3a7-5860-4b3c-896f-503384b0324b
Armstrong-Gold, C
a21f456b-9e80-4f96-a97d-f88024a37035
Haydon, PG
2c9f9351-7942-46cc-a341-aa484487ab03
Lindstrom, J
ae242f12-d24d-4f3a-85f7-46a0f7bbe750
Pangalos, M
ffcdc8fd-2293-4109-a8b4-c15de1d18670
Moss, SJ
b08b6bd5-ed4b-4cee-91de-b626d2f5f3db

Bogdanov, Y, Michels, G, Armstrong-Gold, C, Haydon, PG, Lindstrom, J, Pangalos, M and Moss, SJ (2006) Synaptic GABAA receptors are directly recruited from their extrasynaptic counterparts. The EMBO Journal, 25, 4381-4389. (doi:10.1038/sj.emboj.7601309).

Record type: Article

Abstract

GABAA receptors mediate the majority of fast synaptic inhibition in the brain. The accumulation of these ligand-gated ion channels at synaptic sites is a prerequisite for neuronal inhibition, but the molecular mechanisms underlying this phenomenon remain obscure. To further understand these processes, we have examined the cellular origins of synaptic GABAA receptors. To do so, we have created fluorescent GABAA receptors that are capable of binding α-bungarotoxin (Bgt), facilitating the visualization of receptor endocytosis, exocytosis and delivery to synaptic sites. Imaging with Bgt in hippocampal neurons revealed that GABAA receptor endocytosis occurred exclusively at extrasynaptic sites, consistent with the preferential colocalization of extrasynaptic receptors with the AP2 adaptin. Receptor insertion into the plasma membrane was also predominantly extrasynaptic, and pulse-chase analysis revealed that these newly inserted receptors were then able to access directly synaptic sites. Therefore, our results demonstrate that synaptic GABAA receptors are directly recruited from their extrasynaptic counterparts. Moreover, they illustrate a dynamic mechanism for neurons to modulate GABAA receptor number at inhibitory synapses by controlling the stability of extrasynaptic receptors.

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Published date: 1 September 2006
Additional Information: Copyright © 2006 European Molecular Biology Organization
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Identifiers

Local EPrints ID: 469800
URI: http://eprints.soton.ac.uk/id/eprint/469800
DOI: doi:10.1038/sj.emboj.7601309
ISSN: 0261-4189
PURE UUID: c61dd466-b8a3-4f3c-9be4-54683135de49
ORCID for Y Bogdanov: ORCID iD orcid.org/0000-0003-4667-5890

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Date deposited: 26 Sep 2022 16:39
Last modified: 17 Mar 2024 03:37

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Contributors

Author: Y Bogdanov ORCID iD
Author: G Michels
Author: C Armstrong-Gold
Author: PG Haydon
Author: J Lindstrom
Author: M Pangalos
Author: SJ Moss

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