Brain site-specificity of extracellular adenosine concentration changes during sleep deprivation and spontaneous sleep: an in vivo microdialysis study

Abstract

Previous data suggested that increases in extracellular adenosine in the basal forebrain mediated the sleep-inducing effects of prolonged wakefulness. The present study sought to determine if the state-related changes found in basal forebrain adenosine levels occurred uniformly throughout the brain. In vivo microdialysis sample collection coupled to microbore high-performance liquid chromatography measured extracellular adenosine levels in six brain regions of the cat: basal forebrain, cerebral cortex, thalamus, preoptic area of hypothalamus, dorsal raphe nucleus and pedunculopontine tegmental nucleus. In all these brain regions extracellular adenosine levels showed a similar decline of 15 to 20% during episodes of spontaneous sleep relative to wakefulness. Adenosine levels during non-rapid eye movement sleep did not differ from rapid eye movement sleep. In the course of 6 h of sleep deprivation, adenosine levels increased significantly in the cholinergic region of the basal forebrain (to 140% of baseline) and, to a lesser extent in the cortex, but not in the other regions. Following sleep deprivation, basal forebrain adenosine levels declined very slowly, remaining significantly elevated throughout a 3-h period of recovery sleep, but elsewhere levels were either similar to, or lower than, baseline. The site-specific accumulation of adenosine during sleep deprivation suggests a differential regulation of adenosine levels by as yet unidentified mechanisms. Moreover, the unique pattern of sleep-related changes in basal forebrain adenosine level lends strong support to the hypothesis that the sleep-promoting effects of adenosine, as well as the sleepiness associated with prolonged wakefulness, are both mediated by adenosinergic inhibition of a cortically projecting basal forebrain arousal system.