Abstract
Wolbachia are ubiquitous bacterial endosymbionts of arthropods and affect host gene expression. Although Wolbachia infections were suggested to modulate sleep in flies, their influence on the circadian clock remained obscure. Here, we screened bacterial symbionts in a laboratory Drosophila melanogaster colony, and observed widespread infections of wMel strain Wolbachia. We established a Wolbachia-free strain from a clock gene reporter strain, period-luciferase (per-luc). Temperature (19–29 °C)-compensated free-running periods were detected regardless of infections which may reflect the lack of wMel infections in central circadian pacemaker neurons. However, locomotor activity levels during the night or subjective night were significantly amplified in uninfected flies. Moreover, the behavioral phenotype of F1 offspring of an uninfected female and infected male resembled that of uninfected flies. This trait is consistent with maternal transmission of Wolbachia infection. Interestingly, per-luc activities in headless bodies, as an index of peripheral circadian oscillators, were severely damped in uninfected flies. Additionally, circadian amplitudes of PER immunoreactivities in Malpighian tubules were reduced in uninfected flies. These results demonstrate that Wolbachia boost fly peripheral clock oscillations and diurnal behavioral patterns. Genetic mechanisms underlying behavioral rhythms have been widely analyzed using mutant flies whereas screening of Wolbachia will be necessary for future studies.
Highlights
Intracellular alpha proteobacterium Wolbachia are ubiquitous endosymbionts of arthropods[1,2,3]
We have found frequent infection by wMel strain Wolbachia in fly strains used for circadian rhythm assays and kept within enclosed laboratory conditions
The restriction fragment length polymorphism (RFLP) analysis detected only one sequence type, which indicated the presence of one bacterial symbiont in the per-luc line
Summary
Intracellular alpha proteobacterium Wolbachia are ubiquitous endosymbionts of arthropods[1,2,3]. Wolbachia infections were recently suggested to increase nighttime sleep in flies by transcriptionally regulating dopamine synthetic enzymes[8] Despite their wide range of influences on host activities, the cellular mechanisms underlying Wolbachia-mediated sleep regulation are not fully understood. Chlorella, enable the host’s mating reactivity rhythm to persist under constant light conditions, as shown by the fact that Chlorella-free cells derived from the same strain fail to display such a rhythm. Whether such a dynamic influence of symbiosis on host circadian activities could be the general case in many animal species is currently unknown. We analyzed effects of Wolbachia symbiosis on PER-ir and per-luc levels in these flies to further understand the involvement of Wolbachia in molecular clock movements
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