Abstract
BackgroundImmune challenge impacts behavior in many species. In mammals, this adaptive behavior is often manifested as an increase in sleep. Sleep has therefore been proposed to benefit the host by enhancing immune function and thereby overcome the challenge. To facilitate genetic studies on the relationship between sleep and immune function, we characterized the effect of the immune response on sleep in Drosophila melanogaster. Behavioral features of sleep as well as the innate immune response signaling pathways are well characterized in flies and are highly conserved in mammals.ResultsAn immune response induced by infection with Gram-negative bacteria or by aseptic injury increased sleep in flies. The increase in sleep occurred during the morning hours after treatment and the magnitude of the effect was dependent on the time-of-day of inoculation or injury such that night-time treatment had a stronger effect than that during the daytime. This pattern persisted in constant darkness, indicating a role of the circadian clock. Mutants of the circadian clock gene, period, eliminated the increase in sleep observed in the morning, but instead showed enhanced sleep immediately after injury or infection.Null mutants of the Nuclear Factor κB (NFκB) Relish, which is central to the innate immune response, do not increase sleep in response to injury or infection at any time of day. Instead, they maintain a normal sleep pattern until they die. Expression of a full-length Relish transgene in the fat bodies of Relish mutants restored the morning increase in sleep during an immune response. Fat bodies are a major site of immune signalling in flies and have a key role in host defense.ConclusionsThese data demonstrate that an immune response increases sleep in flies in a manner that is gated by the circadian clock and that requires the NFκB Relish. These findings support a role of sleep in a recovery process and demonstrate a conserved feature of the Drosophila model of sleep.
Highlights
Immune challenge impacts behavior in many species
A handled control group (HC) was subjected to the same handling such that they were removed from the activity monitors and CO2 anesthetized for the same duration, but they were not infected or injured
A representative experiment is illustrated in Figure 1A, where flies were treated at ZT 18, and a significant increase in sleep was observed the following morning in both infected and injured groups
Summary
Immune challenge impacts behavior in many species In mammals, this adaptive behavior is often manifested as an increase in sleep. The immune system and sleep are tightly linked in mammals, as components of the innate immune response, proinflammatory cytokines such as interleukin-1 (IL-1) and tumor necrosis factor a (TNFa), promote sleep likely through their actions in hypothalamic nuclei. Exogenous application of these compounds increases sleep in mammals, depending on the dose, time of day and the site of injection [4]. Determining how sleep is involved in the immune response will have important implications for understanding its putative role in a recovery process as well as for human health
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