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A highly collateralized thalamic cell type with arousal-predicting activity serves as a key hub for graded state transitions in the forebrain
Mátyás, F. ✉ [Mátyás, Ferenc (Neurobiológia), author] Institute of Cognitive Neuroscience and Psychology; Laboratory of Thalamus Research
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Komlósi, G. [Komlósi, Gergely (idegtudomány), author] Laboratory of Thalamus Research
;
Babiczky, Á. [Babiczky, Ákos (Neurobiológia, ps...), author] Institute of Cognitive Neuroscience and Psychology
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Kocsis, K. [Kocsis, Kinga (biológia), author] Roska Tamás Műszaki és Természettudományi Dokto... (PPCU / ITK); MTA-TTK-NAP B Neuronal Network and Behaviour Re... (KPI)
;
Barthó, P. [Barthó, Péter (Idegélettan), author] Laboratory of Thalamus Research
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Barsy, B. [Barsy, Boglárka (Idegélettan), author] MTA-TTK-NAP B Neuronal Network and Behaviour Re... (KPI)
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Dávid, C. [Dávid, Csaba (idegrendszer), author] Anatómiai, Szövet- és Fejlődéstani Intézet (SU / FM / I)
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Kanti, V. [Kanti, Vivien Ildikó (neurobiológia), author] School of Ph. D. Studies (SU)
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Porrero, C.
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Magyar, A. [Magyar, Aletta (neurobiológia), author] Institute of Cognitive Neuroscience and Psychology; School of Ph. D. Studies (SU); MTA-TTK-NAP B Neuronal Network and Behaviour Re... (KPI)
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Szűcs, I.
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Clasca, F.
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Acsády, L. ✉ [Acsády, László (Neurobiológia), author] Laboratory of Thalamus Research
English Article (Journal Article) Scientific
Published:
NATURE NEUROSCIENCE 1097-6256 1546-1726
21
(11)
pp. 1551-1562
2018
SJR Scopus - Neuroscience (miscellaneous): D1
Identifiers
MTMT: 30309774
DOI:
10.1038/s41593-018-0251-9
WoS:
000448319500009
Scopus:
85055463554
PubMed:
30349105
Fundings:
PD(124034)
(NKTH-ANR-09-BLAN-0401)
Sleep cycles consist of rapid alterations between arousal states, including transient perturbation of sleep rhythms, microarousals, and full-blown awake states. Here we demonstrate that the calretinin (CR)-containing neurons in the dorsal medial thalamus (DMT) constitute a key diencephalic node that mediates distinct levels of forebrain arousal. Cell-type-specific activation of DMT/CR+ cells elicited active locomotion lasting for minutes, stereotyped microarousals, or transient disruption of sleep rhythms, depending on the parameters of the stimulation. State transitions could be induced in both slow-wave and rapid eye-movement sleep. The DMT/CR+ cells displayed elevated activity before arousal, received selective subcortical inputs, and innervated several forebrain sites via highly branched axons. Together, these features enable DMT/CR+ cells to summate subcortical arousal information and effectively transfer it as a rapid, synchronous signal to several forebrain regions to modulate the level of arousal. © 2018, The Author(s), under exclusive licence to Springer Nature America, Inc.
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2024-10-05 14:04
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