Underlying pharmacological mechanisms of psilocin-induced
broadband desynchronization and disconnection of EEG in rats

J 2023

Underlying pharmacological mechanisms of psilocin-induced broadband desynchronization and disconnection of EEG in rats

TYLS, Filip, Cestmir VEJMOLA, Vlastimil KOUDELKA, Vaclava PIORECKA, Lukas KADERABEK et. al.

Základní údaje

Originální název

Underlying pharmacological mechanisms of psilocin-induced broadband desynchronization and disconnection of EEG in rats

Autoři

TYLS, Filip, Cestmir VEJMOLA, Vlastimil KOUDELKA, Vaclava PIORECKA, Lukas KADERABEK, Marcel BOCHIN, Tomas NOVAK, Martin KUCHAR, Zdenka BENDOVA, Martin BRUNOVSKY, Jiri HORACEK a Tomas PALENICEK

Vydání

Frontiers in Neuroscience, Lausanne, Frontiers Media S.A. 2023, 1662-453X

Další údaje

Jazyk

angličtina

Typ výsledku

Článek v odborném periodiku

Obor

30230 Other clinical medicine subjects

Stát vydavatele

Francie

Utajení

není předmětem státního či obchodního tajemství

Odkazy

URL

Impakt faktor

Impact factor: 4.300 v roce 2022

Kód RIV

RIV/00216224:90249/23:00132959

Organizační jednotka

CZECRIN IV

DOI

http://dx.doi.org/10.3389/fnins.2023.1152578

UT WoS

001019986200001

Klíčová slova česky

serotonergic psychedelics; psilocybin; psilocin; model of acute psychosis; quantitative EEG; power spectra; phase-lagged coherence; global functional connectivity (GFC)

Klíčová slova anglicky

serotonergic psychedelics; psilocybin; psilocin; model of acute psychosis; quantitative EEG; power spectra; phase-lagged coherence; global functional connectivity (GFC)

Štítky

Excelence Science, neMU, NÚDZ, RIV, user, článek v časopise

Příznaky

Mezinárodní význam, Recenzováno

Změněno: 12. 4. 2024 12:57, Mgr. Michal Petr

Anotace

V originále

IntroductionPsilocybin is one of the most extensively studied psychedelic drugs with a broad therapeutic potential. Despite the fact that its psychoactivity is mainly attributed to the agonism at 5-HT2A receptors, it has high binding affinity also to 5-HT2C and 5-HT1A receptors and indirectly modulates the dopaminergic system. Psilocybin and its active metabolite psilocin, as well as other serotonergic psychedelics, induce broadband desynchronization and disconnection in EEG in humans as well as in animals. The contribution of serotonergic and dopaminergic mechanisms underlying these changes is not clear. The present study thus aims to elucidate the pharmacological mechanisms underlying psilocin-induced broadband desynchronization and disconnection in an animal model. MethodsSelective antagonists of serotonin receptors (5-HT1A WAY100635, 5-HT2A MDL100907, 5-HT2C SB242084) and antipsychotics haloperidol, a D-2 antagonist, and clozapine, a mixed D-2 and 5-HT receptor antagonist, were used in order to clarify the underlying pharmacology. ResultsPsilocin-induced broadband decrease in the mean absolute EEG power was normalized by all antagonists and antipsychotics used within the frequency range 1-25 Hz; however, decreases in 25-40 Hz were influenced only by clozapine. Psilocin-induced decrease in global functional connectivity and, specifically, fronto-temporal disconnection were reversed by the 5-HT2A antagonist while other drugs had no effect. DiscussionThese findings suggest the involvement of all three serotonergic receptors studied as well as the role of dopaminergic mechanisms in power spectra/current density with only the 5-HT2A receptor being effective in both studied metrics. This opens an important discussion on the role of other than 5-HT2A-dependent mechanisms underlying the neurobiology of psychedelics.

Návaznosti

90249, velká výzkumná infrastruktura

Název: CZECRIN IV

Citovat

TYLS, Filip, Cestmir VEJMOLA, Vlastimil KOUDELKA, Vaclava PIORECKA, Lukas KADERABEK, Marcel BOCHIN, Tomas NOVAK, Martin KUCHAR, Zdenka BENDOVA, Martin BRUNOVSKY, Jiri HORACEK a Tomas PALENICEK. Underlying pharmacological mechanisms of psilocin-induced broadband desynchronization and disconnection of EEG in rats. Frontiers in Neuroscience. Lausanne: Frontiers Media S.A., 2023, roč. 17, na, s. 1-13. ISSN 1662-453X. Dostupné z: https://dx.doi.org/10.3389/fnins.2023.1152578.

@article{2359925,
   author = {Tyls, Filip and Vejmola, Cestmir and Koudelka, Vlastimil and Piorecka, Vaclava and Kaderabek, Lukas and Bochin, Marcel and Novak, Tomas and Kuchar, Martin and Bendova, Zdenka and Brunovsky, Martin and Horacek, Jiri and Palenicek, Tomas},
   article_location = {Lausanne},
   article_number = {na},
   doi = {http://dx.doi.org/10.3389/fnins.2023.1152578},
   keywords = {serotonergic psychedelics; psilocybin; psilocin; model of acute psychosis; quantitative EEG; power spectra; phase-lagged coherence; global functional connectivity (GFC)},
   language = {eng},
   issn = {1662-453X},
   journal = {Frontiers in Neuroscience},
   title = {Underlying pharmacological mechanisms of psilocin-induced broadband desynchronization and disconnection of EEG in rats},
   url = {https://www.frontiersin.org/articles/10.3389/fnins.2023.1152578/full},
   volume = {17},
   year = {2023}
}

TY  - JOUR
ID  - 2359925
AU  - Tyls, Filip - Vejmola, Cestmir - Koudelka, Vlastimil - Piorecka, Vaclava - Kaderabek, Lukas - Bochin, Marcel - Novak, Tomas - Kuchar, Martin - Bendova, Zdenka - Brunovsky, Martin - Horacek, Jiri - Palenicek, Tomas
PY  - 2023
TI  - Underlying pharmacological mechanisms of psilocin-induced broadband desynchronization and disconnection of EEG in rats
JF  - Frontiers in Neuroscience
VL  - 17
IS  - na
SP  - 1-13
EP  - 1-13
PB  - Frontiers Media S.A.
SN  - 1662453X
KW  - serotonergic psychedelics
KW  - psilocybin
KW  - psilocin
KW  - model of acute psychosis
KW  - quantitative EEG
KW  - power spectra
KW  - phase-lagged coherence
KW  - global functional connectivity (GFC)
UR  - https://www.frontiersin.org/articles/10.3389/fnins.2023.1152578/full
N2  - IntroductionPsilocybin is one of the most extensively studied psychedelic drugs with a broad therapeutic potential. Despite the fact that its psychoactivity is mainly attributed to the agonism at 5-HT2A receptors, it has high binding affinity also to 5-HT2C and 5-HT1A receptors and indirectly modulates the dopaminergic system. Psilocybin and its active metabolite psilocin, as well as other serotonergic psychedelics, induce broadband desynchronization and disconnection in EEG in humans as well as in animals. The contribution of serotonergic and dopaminergic mechanisms underlying these changes is not clear. The present study thus aims to elucidate the pharmacological mechanisms underlying psilocin-induced broadband desynchronization and disconnection in an animal model. MethodsSelective antagonists of serotonin receptors (5-HT1A WAY100635, 5-HT2A MDL100907, 5-HT2C SB242084) and antipsychotics haloperidol, a D-2 antagonist, and clozapine, a mixed D-2 and 5-HT receptor antagonist, were used in order to clarify the underlying pharmacology. ResultsPsilocin-induced broadband decrease in the mean absolute EEG power was normalized by all antagonists and antipsychotics used within the frequency range 1-25 Hz; however, decreases in 25-40 Hz were influenced only by clozapine. Psilocin-induced decrease in global functional connectivity and, specifically, fronto-temporal disconnection were reversed by the 5-HT2A antagonist while other drugs had no effect. DiscussionThese findings suggest the involvement of all three serotonergic receptors studied as well as the role of dopaminergic mechanisms in power spectra/current density with only the 5-HT2A receptor being effective in both studied metrics. This opens an important discussion on the role of other than 5-HT2A-dependent mechanisms underlying the neurobiology of psychedelics.
ER  -

TYLS, Filip, Cestmir VEJMOLA, Vlastimil KOUDELKA, Vaclava PIORECKA, Lukas KADERABEK, Marcel BOCHIN, Tomas NOVAK, Martin KUCHAR, Zdenka BENDOVA, Martin BRUNOVSKY, Jiri HORACEK a Tomas PALENICEK. Underlying pharmacological mechanisms of psilocin-induced broadband desynchronization and disconnection of EEG in rats. \textit{Frontiers in Neuroscience}. Lausanne: Frontiers Media S.A., 2023, roč.~17, na, s.~1-13. ISSN~1662-453X. Dostupné z: https://dx.doi.org/10.3389/fnins.2023.1152578.

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