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Circadian dynamics in measures of cortical excitation and inhibition balance

Circadian dynamics in measures of cortical excitation and inhibition balance
Circadian dynamics in measures of cortical excitation and inhibition balance
Several neuropsychiatric and neurological disorders have recently been characterized as dysfunctions arising from a ‘final common pathway’ of imbalanced excitation to inhibition within cortical networks. How the regulation of a cortical E/I ratio is affected by sleep and the circadian rhythm however, remains to be established. Here we addressed this issue through the analyses of TMS-evoked responses recorded over a 29 h sleep deprivation protocol conducted in young and healthy volunteers. Spectral analyses of TMS-evoked responses in frontal cortex revealed non-linear changes in gamma band evoked oscillations, compatible with an influence of circadian timing on inhibitory interneuron activity. In silico inferences of cell-to-cell excitatory and inhibitory connectivity and GABA/Glutamate receptor time constant based on neural mass modeling within the Dynamic causal modeling framework, further suggested excitation/inhibition balance was under a strong circadian influence. These results indicate that circadian changes in EEG spectral properties, in measure of excitatory/inhibitory connectivity and in GABA/glutamate receptor function could support the maintenance of cognitive performance during a normal waking day, but also during overnight wakefulness. More generally, these findings demonstrate a slow daily regulation of cortical excitation/inhibition balance, which depends on circadian-timing and prior sleep-wake history.
2045-2322
Chellappa, Sarah L.
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Gaggioni, Giulia
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Ly, Julien Q.M.
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Papachilleos, Soterios
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Borsu, Chloé
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Brzozowski, Alexandre
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Rosanova, Mario
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Sarasso, Simone
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Luxen, André
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Middleton, Benita
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Archer, Simon N.
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Dijk, Derk-Jan
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Massimini, Marcello
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Maquet, Pierre
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Phillips, Christophe
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Moran, Rosalyn J.
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Vandewalle, Gilles
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Chellappa, Sarah L.
516582b5-3cba-4644-86c9-14c91a4510f2
Gaggioni, Giulia
32062755-d193-452c-a698-af3bd908f816
Ly, Julien Q.M.
d58c9966-52b4-463a-ab18-65dc222ed99a
Papachilleos, Soterios
c7231cde-cdf3-4498-9f10-2389fe007691
Borsu, Chloé
3cadf461-08c8-4451-9dce-5747b188001b
Brzozowski, Alexandre
b0b7656c-c20c-46e7-a3ee-cf5d0401fe91
Rosanova, Mario
7f32f530-03ec-4b03-b79f-6b3a2d6b07fa
Sarasso, Simone
862682af-c25b-406c-8649-63b5c0bf1f5e
Luxen, André
a87cdbec-45d5-4d32-aa0e-3d29c4bd3959
Middleton, Benita
73f9f43a-c629-443d-bdf7-88238170244b
Archer, Simon N.
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Dijk, Derk-Jan
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Massimini, Marcello
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Maquet, Pierre
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Phillips, Christophe
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Moran, Rosalyn J.
2a827dd6-1ea9-4d4d-a1c4-8cbce149c65e
Vandewalle, Gilles
26e86381-f07d-41ae-ae39-debbfd10013b

Chellappa, Sarah L., Gaggioni, Giulia, Ly, Julien Q.M., Papachilleos, Soterios, Borsu, Chloé, Brzozowski, Alexandre, Rosanova, Mario, Sarasso, Simone, Luxen, André, Middleton, Benita, Archer, Simon N., Dijk, Derk-Jan, Massimini, Marcello, Maquet, Pierre, Phillips, Christophe, Moran, Rosalyn J. and Vandewalle, Gilles (2016) Circadian dynamics in measures of cortical excitation and inhibition balance. Scientific Reports, 6, [33661]. (doi:10.1038/srep33661).

Record type: Article

Abstract

Several neuropsychiatric and neurological disorders have recently been characterized as dysfunctions arising from a ‘final common pathway’ of imbalanced excitation to inhibition within cortical networks. How the regulation of a cortical E/I ratio is affected by sleep and the circadian rhythm however, remains to be established. Here we addressed this issue through the analyses of TMS-evoked responses recorded over a 29 h sleep deprivation protocol conducted in young and healthy volunteers. Spectral analyses of TMS-evoked responses in frontal cortex revealed non-linear changes in gamma band evoked oscillations, compatible with an influence of circadian timing on inhibitory interneuron activity. In silico inferences of cell-to-cell excitatory and inhibitory connectivity and GABA/Glutamate receptor time constant based on neural mass modeling within the Dynamic causal modeling framework, further suggested excitation/inhibition balance was under a strong circadian influence. These results indicate that circadian changes in EEG spectral properties, in measure of excitatory/inhibitory connectivity and in GABA/glutamate receptor function could support the maintenance of cognitive performance during a normal waking day, but also during overnight wakefulness. More generally, these findings demonstrate a slow daily regulation of cortical excitation/inhibition balance, which depends on circadian-timing and prior sleep-wake history.

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Accepted/In Press date: 31 August 2016
Published date: 21 September 2016
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Identifiers

Local EPrints ID: 479624
URI: http://eprints.soton.ac.uk/id/eprint/479624
DOI: doi:10.1038/srep33661
ISSN: 2045-2322
PURE UUID: b7a3b2f0-56dd-46ef-865e-0b267f96207d
ORCID for Sarah L. Chellappa: ORCID iD orcid.org/0000-0002-6190-464X

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Date deposited: 26 Jul 2023 16:42
Last modified: 17 Mar 2024 04:20

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Contributors

Author: Sarah L. Chellappa ORCID iD
Author: Giulia Gaggioni
Author: Julien Q.M. Ly
Author: Soterios Papachilleos
Author: Chloé Borsu
Author: Alexandre Brzozowski
Author: Mario Rosanova
Author: Simone Sarasso
Author: André Luxen
Author: Benita Middleton
Author: Simon N. Archer
Author: Derk-Jan Dijk
Author: Marcello Massimini
Author: Pierre Maquet
Author: Christophe Phillips
Author: Rosalyn J. Moran
Author: Gilles Vandewalle

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