Neuroendocrine circuit for sleep-dependent growth hormone release

Abstract

Sleep is known to promote tissue growth and regulate metabolism, partly by enhancing growth hormone (GH) release, but the underlying circuit mechanism is unknown. We demonstrate how GH release, which is enhanced during both rapid eye movement (REM) and non-REM (NREM) sleep, is regulated by sleep-wake-dependent activity of distinct hypothalamic neurons expressing GH-releasing hormone (GHRH) and somatostatin (SST). SST neurons in the arcuate nucleus suppress GH release by inhibiting nearby GHRH neurons that stimulate GH release, whereas periventricular SST neurons inhibit GH release by projecting to the median eminence. GH release is associated with strong surges of both GHRH and SST activity during REM sleep but moderately increased GHRH and decreased SST activity during NREM sleep. Furthermore, we identified a negative feedback pathway in which GH enhances the excitability of locus coeruleus neurons and increases wakefulness. These results elucidate a circuit mechanism underlying bidirectional interactions between sleep and hormone regulation.

Keywords: ELISA; growth hormone; growth hormone-releasing hormone; noradrenergic neurons; optogenetics; sleep; somatostatin.