Astrocyte‐derived adenosine excites sleep‐promoting neurons in the ventrolateral preoptic nucleus: Astrocyte‐neuron interactions in the regulation of sleep

Abstract Although ATP and/or adenosine derived from astrocytes are known to regulate sleep, the precise mechanisms underlying the somnogenic effects of ATP and adenosine remain unclear. We selectively expressed channelrhodopsin‐2 (ChR2), a light‐sensitive ion channel, in astrocytes within the ventrolateral preoptic nucleus (VLPO), which is an essential brain nucleus involved in sleep promotion. We then examined the effects of photostimulation of astrocytic ChR2 on neuronal excitability using whole‐cell patch‐clamp recordings in two functionally distinct types of VLPO neurons: sleep‐promoting GABAergic projection neurons and non‐sleep‐promoting local GABAergic neurons. Optogenetic stimulation of VLPO astrocytes demonstrated opposite outcomes in the two types of VLPO neurons. It led to the inhibition of non‐sleep‐promoting neurons and excitation of sleep‐promoting neurons. These responses were attenuated by blocking of either adenosine A 1 receptors or tissue‐nonspecific alkaline phosphatase (TNAP). In contrast, exogenous adenosine decreased the excitability of both VLPO neuron populations. Moreover, TNAP was expressed in galanin‐negative VLPO neurons, but not in galanin‐positive sleep‐promoting projection neurons. Taken together, these results suggest that astrocyte‐derived ATP is converted into adenosine by TNAP in non‐sleep‐promoting neurons. In turn, adenosine decreases the excitability of local GABAergic neurons, thereby increasing the excitability of sleep‐promoting GABAergic projection neurons. We propose a novel mechanism involving astrocyte‐neuron interactions in sleep regulation, wherein endogenous adenosine derived from astrocytes excites sleep‐promoting VLPO neurons, and thus decreases neuronal excitability in arousal‐related areas of the brain.