Ecdysone acts through cortex glia to regulate sleep in Drosophila

Abstract

SummarySteroid hormones are attractive candidates for transmitting long-range signals to affect behavior. These lipid-soluble molecules derived from dietary cholesterol easily penetrate the brain and act through nuclear hormone receptors (NHRs) that function as transcription factors. To determine the extent to which NHRs affect sleep: wake cycles, we knocked down each of the 18 highly conserved NHRs found in Drosophila adults and report that the ecdysone receptor (EcR) and its direct downstream NHR Eip75B (E75) act in glia to regulate the rhythm and amount of sleep. Halloween genes, a set of ecdysone synthesis genes, have little to no expression in the fly brain, while mRNA levels of the ecdysone target E75 cycle in the fly head, suggesting that glial ecdysone comes from the periphery and may enter the brain more at night. Anti-EcR staining localizes to the cortex glia in the brain and functional screening of glial subtypes revealed that EcR functions in adult cortex glia to affect sleep. Cortex glia are implicated in lipid metabolism, which appears to be relevant for actions of ecdysone as ecdysone treatment reduces lipid droplet size in these cells. In addition, sleep-promoting effects of exogenous ecdysone are diminished in Lsd-2 mutant flies, which are lean and deficient in lipid accumulation. We propose that ecdysone is a systemic secreted factor that modulates sleep by stimulating lipid metabolism in cortex glia.Graphical AbstractHighlightsGlial knockdown of ecdysone inducible NHRs reduces sleep.The ecdysone receptor (EcR) and its downstream target E75 function in cortex glia to modulate sleep.Ecdysone synthesis genes are not expressed in the fly brain, suggesting that glial ecdysone comes from the periphery.Ecdysone promotes sleep by mobilizing lipid droplets stored mainly in glia.