Molecular and neuroanatomical mechanisms of sleep-wakefulness regulation by prostaglandins D₂ and E₂

Abstract

Prostaglandin (PG)s D₂ and E₂ are the major arachidonic acid metabolites in the mammalian brain. PGD synthase, the enzyme that produces PGD₂ in the brain, is mainly localized in the arachnoid membrane and choroid plexus. It is secreted into the cerebrospinal fluid and circulates in the brain through the ventricular system. PGD₂ induces sleep by acting on the surface of the ventro-medial region of the rostral basal forebrain, the signal of which is probably transmitted into the brain parenchyma by adenosine via adenosine A_2a receptors. Fos expression experiments suggest that PGD₂ inhibits histaminergic arousal neurons of the tuberomammillary nucleus (TMN) in the posterior hypothalamus by activating inhibitory neurons in the ventrolateral preoptic area (VLPO). However, PGE₂ causes wakefulness by activating arousal neurons in the TMN via AMPA type excitatory amino acid receptors. Therefore, PGD₂, acting as a sleep-inducer, and PGE₂, acting as a wakefulness-promoter, jointly regulate the generation of sleep and wakefulness in the mammalian brain.