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Stress response genes protect against lethal effects of sleep deprivation in Drosophila

Author

Listed:
  • Paul J. Shaw

    (The Neurosciences Institute)

  • Giulio Tononi

    (The Neurosciences Institute
    University of Wisconsin-Madison)

  • Ralph J. Greenspan

    (The Neurosciences Institute)

  • Donald F. Robinson

    (The Neurosciences Institute)

Abstract

Sleep is controlled by two processes: a homeostatic drive that increases during waking and dissipates during sleep, and a circadian pacemaker that controls its timing1. Although these two systems can operate independently2,3, recent studies indicate a more intimate relationship4,5. To study the interaction between homeostatic and circadian processes in Drosophila, we examined homeostasis in the canonical loss-of-function clock mutants period (per01), timeless (tim01), clock (Clkjrk) and cycle (cyc01)6,7,8,9. cyc01 mutants showed a disproportionately large sleep rebound and died after 10 hours of sleep deprivation, although they were more resistant than other clock mutants to various stressors. Unlike other clock mutants, cyc01 flies showed a reduced expression of heat-shock genes after sleep loss. However, activating heat-shock genes before sleep deprivation rescued cyc01 flies from its lethal effects. Consistent with the protective effect of heat-shock genes, was the observation that flies carrying a mutation for the heat-shock protein Hsp83 (Hsp8308445)10 showed exaggerated homeostatic response and died after sleep deprivation. These data represent the first step in identifying the molecular mechanisms that constitute the sleep homeostat.

Suggested Citation

  • Paul J. Shaw & Giulio Tononi & Ralph J. Greenspan & Donald F. Robinson, 2002. "Stress response genes protect against lethal effects of sleep deprivation in Drosophila," Nature, Nature, vol. 417(6886), pages 287-291, May.
  • Handle: RePEc:nat:nature:v:417:y:2002:i:6886:d:10.1038_417287a
    DOI: 10.1038/417287a
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    Cited by:

    1. Yan-Ying Wang & Wei-Wei Ma & I-Feng Peng, 2020. "Screening of sleep assisting drug candidates with a Drosophila model," PLOS ONE, Public Library of Science, vol. 15(7), pages 1-17, July.
    2. Saurabh Thapliyal & Isabel Beets & Dominique A. Glauser, 2023. "Multisite regulation integrates multimodal context in sensory circuits to control persistent behavioral states in C. elegans," Nature Communications, Nature, vol. 14(1), pages 1-19, December.

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