Abstract |
Wakefulness, along with fast cortical rhythms and associated cognition, depend on the basal forebrain (BF). BF cholinergic cell loss in dementia and the sedative effect of anti-cholinergic drugs have long implicated these neurons as important for cognition and wakefulness. The BF also contains intermingled inhibitory GABAergic and excitatory glutamatergic cell groups whose exact neurobiological roles are unclear. Here we show that genetically targeted chemogenetic activation of BF cholinergic or glutamatergic neurons in behaving mice produced significant effects on state consolidation and/or the electroencephalogram but had no effect on total wake. Similar activation of BF GABAergic neurons produced sustained wakefulness and high-frequency cortical rhythms, whereas chemogenetic inhibition increased sleep. Our findings reveal a major contribution of BF GABAergic neurons to wakefulness and the fast cortical rhythms associated with cognition. These findings may be clinically applicable to manipulations aimed at increasing forebrain activation in dementia and the minimally conscious state.
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Authors | Christelle Anaclet, Nigel P Pedersen, Loris L Ferrari, Anne Venner, Caroline E Bass, Elda Arrigoni, Patrick M Fuller |
Journal | Nature communications
(Nat Commun)
Vol. 6
Pg. 8744
(Nov 03 2015)
ISSN: 2041-1723 [Electronic] England |
PMID | 26524973
(Publication Type: Journal Article, Research Support, N.I.H., Extramural)
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Chemical References |
- Proto-Oncogene Proteins c-fos
- Glutamic Acid
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Topics |
- Animals
- Basal Forebrain
(physiology)
- Brain Waves
(physiology)
- Cerebral Cortex
(physiology)
- Cholinergic Neurons
(physiology)
- Electroencephalography
- GABAergic Neurons
(physiology)
- Glutamic Acid
- Immunohistochemistry
- Mice
- Neurons
(physiology)
- Proto-Oncogene Proteins c-fos
(metabolism)
- Sleep
(physiology)
- Sleep, REM
(physiology)
- Wakefulness
(physiology)
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