Journal
SLEEP MEDICINE REVIEWS
Volume 11, Issue 2, Pages 113-133Publisher
W B SAUNDERS CO LTD
DOI: 10.1016/j.smrv.2006.08.003
Keywords
dopamine; sleep; waking; REM sleep; slow wave sleep; ventral tegmental area; substantia nigra pars compacta; D-1-like receptors; D-2-like receptors; burst firing
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Dopamine (DA)-containing neurons involved in the regulation of steep and waking (W) arise in the ventral tegmentat area (VTA) and the substantia nigra pars compacta (SNc). The VTA and SNc cells have efferent and afferent,connections with the dorsal raphe nucleus (DRN), the pedunculopontine and laterodorsat tegmental nuclei (PPT/LDT), the locus coeruleus (LC), the lateral and posterior hypothalamus (LH), the basal forebrain (BFB), and the thalamus. Molecular cloning techniques have enabled the characterization of two distinct groups of DA receptors, D-1-like and D-2-like receptors. The D-1 subfamily includes the D-1 and D-5 receptors, whereas the D-2 subfamily comprises the D-2, D-3, and D-4 receptors. Systemic administration of a selective D-1 receptor agonist induces behavioral arousal, together with an increase of W and a reduction of slow wave steep (SWS) and REM steep (REMS). Systemic injection of a DA D-2 receptor agonist induces biphasic effects, such that tow doses reduce W and increase SWS and REMS (predominant activation of the D-2 autoreceptor), whereas large doses induce the opposite effect (predominant facilitation of the D-2 postsynaptic receptor). Compounds with DA D-1 or D-2 receptor blocking properties augment non-REMS and reduce W. Preliminary findings tend to indicate that the administration of a DA D-3-preferring agonist induces somnolence and steep in laboratory animals and man. DA neurons in the VTA and the SNc do not change their mean firing rate across the steep-wake cycle. It has been proposed that DA cells in the midbrain show a change in temporal pattern rather than firing rate during the sleep-wake cycle. The available evidence tends to indicate that during W there occurs an increase of burst firing activity of DA neurons, and an enhanced release of DA in the VTA, the nucleus accumbens (NAc), and a number of forebrain structures. A series of structures relevant for the regulation of the behavioral state, including the DRN, LDT/PPT, LC, and LH, could be partly responsible for the changes in the temporal pattern of activity of DA neurons. (C) 2006 Elsevier Ltd. All rights reserved.
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