Caffeine, a component of tea, coffee and cola, induces wakefulness. It binds to adenosine A1 and A2A receptors as an antagonist, but the receptor subtype mediating caffeine-induced wakefulness remains unclear. Here we report that caffeine at 5, 10 and 15 mg kg(-1) increased wakefulness in both wild-type mice and A1 receptor knockout mice, but not in A2A receptor knockout mice. Thus, caffeine-induced wakefulness depends on adenosine A2A receptors.
Orexin neurons are exclusively localized in the lateral
hypothalamic area and project their fibers to the entire central
nervous system, including the histaminergic tuberomammillary nucleus
(TMN). Dysfunction of the orexin system results in the sleep disorder
narcolepsy, but the role of orexin in physiological sleep–wake
regulation and the mechanisms involved remain to be elucidated. Here we
provide several lines of evidence that orexin A induces wakefulness by
means of the TMN and histamine H
1
receptor (H1R). Perfusion
of orexin A (5 and 25 pmol/min) for 1 hr into the TMN of rats
through a microdialysis probe promptly increased wakefulness for 2
hr after starting the perfusion by 2.5- and 4-fold, respectively,
concomitant with a reduction in rapid eye movement (REM) and non-REM
sleep. Microdialysis studies showed that application of orexin A to the
TMN increased histamine release from both the medial preoptic area and
the frontal cortex by ≈2-fold over the baseline for 80 to 160 min in
a dose-dependent manner. Furthermore, infusion of orexin A (1.5
pmol/min) for 6 hr into the lateral ventricle of mice produced a
significant increase in wakefulness during the 8 hr after starting
infusion to the same level as the wakefulness observed during the
active period in wild-type mice, but not at all in H1R gene knockout
mice. These findings strongly indicate that the arousal effect of
orexin A depends on the activation of histaminergic neurotransmission
mediated by H1R.
Caffeine, the most widely used psychoactive compound, is an adenosine receptor antagonist. It promotes wakefulness by blocking adenosine A2A receptors (A2ARs) in the brain, but the specific neurons on which caffeine acts to produce arousal have not been identified. Using selective gene deletion strategies based on the Cre/loxP technology in mice and focal RNA interference to silence the expression of A2ARs in rats by local infection with adeno-associated virus carrying short-hairpin RNA, we report that the A2ARs in the shell region of the nucleus accumbens (NAc) are responsible for the effect of caffeine on wakefulness. Caffeine-induced arousal was not affected in rats when A2ARs were focally removed from the NAc core or other A2AR-positive areas of the basal ganglia. Our observations suggest that caffeine promotes arousal by activating pathways that traditionally have been associated with motivational and motor responses in the brain.
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