A single high dose of dexamethasone affects the phosphorylation state of glutamate AMPA receptors in the human limbic system

Glucocorticoids (GC) released during stress response exert feedforward effects in the whole brain, but particularly in the limbic circuits that modulates cognition, emotion and behavior. GC are the most commonly prescribed anti-inflammatory and immunosuppressant medication worldwide and pharmacologi...

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Autores principales: Lopes, M W, Leal, R B, Guarnieri, R, Schwarzbold, M L, Hoeller, A, Diaz, A P, Boos, G L, Lin, K, Linhares, M N, Nunes, J C, Quevedo, J, Bortolotto, Z A, Markowitsch, H J, Lightman, S L, Walz, R
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2016
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5290343/
https://www.ncbi.nlm.nih.gov/pubmed/27959333
http://dx.doi.org/10.1038/tp.2016.251
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author Lopes, M W
Leal, R B
Guarnieri, R
Schwarzbold, M L
Hoeller, A
Diaz, A P
Boos, G L
Lin, K
Linhares, M N
Nunes, J C
Quevedo, J
Bortolotto, Z A
Markowitsch, H J
Lightman, S L
Walz, R
author_facet Lopes, M W
Leal, R B
Guarnieri, R
Schwarzbold, M L
Hoeller, A
Diaz, A P
Boos, G L
Lin, K
Linhares, M N
Nunes, J C
Quevedo, J
Bortolotto, Z A
Markowitsch, H J
Lightman, S L
Walz, R
author_sort Lopes, M W
collection PubMed
description Glucocorticoids (GC) released during stress response exert feedforward effects in the whole brain, but particularly in the limbic circuits that modulates cognition, emotion and behavior. GC are the most commonly prescribed anti-inflammatory and immunosuppressant medication worldwide and pharmacological GC treatment has been paralleled by the high incidence of acute and chronic neuropsychiatric side effects, which reinforces the brain sensitivity for GC. Synapses can be bi-directionally modifiable via potentiation (long-term potentiation, LTP) or depotentiation (long-term depression, LTD) of synaptic transmission efficacy, and the phosphorylation state of Ser831 and Ser845 sites, in the GluA1 subunit of the glutamate AMPA receptors, are a critical event for these synaptic neuroplasticity events. Through a quasi-randomized controlled study, we show that a single high dexamethasone dose significantly reduces in a dose-dependent manner the levels of GluA1-Ser831 phosphorylation in the amygdala resected during surgery for temporal lobe epilepsy. This is the first report demonstrating GC effects on key markers of synaptic neuroplasticity in the human limbic system. The results contribute to understanding how GC affects the human brain under physiologic and pharmacologic conditions.
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spelling pubmed-52903432017-02-07 A single high dose of dexamethasone affects the phosphorylation state of glutamate AMPA receptors in the human limbic system Lopes, M W Leal, R B Guarnieri, R Schwarzbold, M L Hoeller, A Diaz, A P Boos, G L Lin, K Linhares, M N Nunes, J C Quevedo, J Bortolotto, Z A Markowitsch, H J Lightman, S L Walz, R Transl Psychiatry Original Article Glucocorticoids (GC) released during stress response exert feedforward effects in the whole brain, but particularly in the limbic circuits that modulates cognition, emotion and behavior. GC are the most commonly prescribed anti-inflammatory and immunosuppressant medication worldwide and pharmacological GC treatment has been paralleled by the high incidence of acute and chronic neuropsychiatric side effects, which reinforces the brain sensitivity for GC. Synapses can be bi-directionally modifiable via potentiation (long-term potentiation, LTP) or depotentiation (long-term depression, LTD) of synaptic transmission efficacy, and the phosphorylation state of Ser831 and Ser845 sites, in the GluA1 subunit of the glutamate AMPA receptors, are a critical event for these synaptic neuroplasticity events. Through a quasi-randomized controlled study, we show that a single high dexamethasone dose significantly reduces in a dose-dependent manner the levels of GluA1-Ser831 phosphorylation in the amygdala resected during surgery for temporal lobe epilepsy. This is the first report demonstrating GC effects on key markers of synaptic neuroplasticity in the human limbic system. The results contribute to understanding how GC affects the human brain under physiologic and pharmacologic conditions. Nature Publishing Group 2016-12 2016-12-13 /pmc/articles/PMC5290343/ /pubmed/27959333 http://dx.doi.org/10.1038/tp.2016.251 Text en Copyright © 2016 The Author(s) http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article's Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Original Article
Lopes, M W
Leal, R B
Guarnieri, R
Schwarzbold, M L
Hoeller, A
Diaz, A P
Boos, G L
Lin, K
Linhares, M N
Nunes, J C
Quevedo, J
Bortolotto, Z A
Markowitsch, H J
Lightman, S L
Walz, R
A single high dose of dexamethasone affects the phosphorylation state of glutamate AMPA receptors in the human limbic system
title A single high dose of dexamethasone affects the phosphorylation state of glutamate AMPA receptors in the human limbic system
title_full A single high dose of dexamethasone affects the phosphorylation state of glutamate AMPA receptors in the human limbic system
title_fullStr A single high dose of dexamethasone affects the phosphorylation state of glutamate AMPA receptors in the human limbic system
title_full_unstemmed A single high dose of dexamethasone affects the phosphorylation state of glutamate AMPA receptors in the human limbic system
title_short A single high dose of dexamethasone affects the phosphorylation state of glutamate AMPA receptors in the human limbic system
title_sort single high dose of dexamethasone affects the phosphorylation state of glutamate ampa receptors in the human limbic system
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5290343/
https://www.ncbi.nlm.nih.gov/pubmed/27959333
http://dx.doi.org/10.1038/tp.2016.251
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