Journal
JOURNAL OF NEUROSCIENCE
Volume 28, Issue 38, Pages 9377-9385Publisher
SOC NEUROSCIENCE
DOI: 10.1523/JNEUROSCI.3072-08a.2008
Keywords
Drosophila; octopamine; sleep; locomotion; norepinephrine; biogenic amine; arousal
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Funding
- National Institutes on Aging
- Center for Sleep and Respiratory Neurobiology at the University of Pennsylvania
- National Institute of Mental Health
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Sleep is a fundamental process, but its regulation and function are still not well understood. The Drosophila model for sleep provides a powerful system to address the genetic and molecular mechanisms underlying sleep and wakefulness. Here we show that a Drosophila biogenic amine, octopamine, is a potent wake-promoting signal. Mutations in the octopamine biosynthesis pathway produced a phenotype of increased sleep, which was restored to wild-type levels by pharmacological treatment with octopamine. Moreover, electrical silencing of octopamine-producing cells decreased wakefulness, whereas excitation of these neurons promoted wakefulness. Because protein kinase A (PKA) is a putative target of octopamine signaling and is also implicated in Drosophila sleep, we investigated its role in the effects of octopamine on sleep. We found that decreased PKA activity in neurons rendered flies insensitive to the wake-promoting effects of octopamine. However, this effect of PKA was not exerted in the mushroom bodies, a site previously associated with PKA action on sleep. These studies identify a novel pathway that regulates sleep in Drosophila.
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