Abstract
Sleep is under control of two processes – circadian and homeo-static regulation – but little is known about how these two processes integrate. Here, we identify aDrosophilagene,ninna nanna, encoding two alternatively spliced isoforms: Ninna and Nanna. Both proteins encode aldo-keto reductases and are expressed in different, yet interconnected neurons. One isoform,ninna, encodes an aldo-keto reductase with predicted affinity for NADP(H) and is expressed in key circadian pacemaker neurons, the s-LNvs. The second isoform,nanna, encodes an aldo-keto reductase with predicted affinity for NAD(H) and is expressed in ICLI neurons, a pair of wake-promoting peptidergic neurons whose inhibition relieves sleep pressure. Ninna and nanna neurons interconnect to integrate a binary sleep sensing circuit in whichninnareceives circadian information andnannaencodes homeostatic sleep pressure.ninna nannadefines an archetypal circuit for the integration of circadian and homeostatic sleep drive and reinforces the hypothesized link between aldo-keto reductases and sleep regulation.
Publisher
Cold Spring Harbor Laboratory