Sleep is widely regarded to be a restorative state, and the physiological perturbations associated with sleep deprivation are extensive. Despite intensive study, none of these perturbations has in turn been shown to drive sleep. Recently our lab has shown that in C. elegans, environmental stressors such as heat, cold and toxins induce a sleep-like state (Hill et al., 2014). As noxious environmental stressors are known to interrupt normal proteostasis, the existence of a subsequent sleep state suggests that sleep serves to assist in the restoration of normal proteostasis. This idea is supported by our observation that sleepless animals have impaired survival following severe stress (Hill et al., 2014). Further, we have found that chaperone response defective mutants display exaggerated sleep responses. These mutants include animals lacking the stress-induced transcription factors
hsf-1/HSF-1,
daf-16/FOXO and a component of the endoplasmic reticulum stress-response pathway
hsp-4/BiP. We are testing site-of-action for this effect by examining strains with tissue-specific rescue of HSF-1. In addition, we are using pharmacological inhibitors of the proteasome to test whether direct inhibition of the proteostasis machinery can trigger sleep. Last, we are performing RNAi against both positive and negative regulators of the heat shock transcriptional response, and screening for sleep phenotypes. The results of these efforts will be presented.Hill AJ, Mansfield R, Lopez JMG, Raizen DM, Van Buskirk C (2014) Cellular stress induces a protective sleep-like state in C. elegans. Curr Bio 24:1-7.Zimmerman JE, Naidoo N, Raizen DM, Pack AI (2008) Conservation of sleep: insights from non-mammalian model systems. Trends Neurosci 31:371-6.