Abstract
Apterous (Ap), the best studied LIM-homeodomain transcription factor in Drosophila, cooperates with the cofactor Chip (Chi) to regulate transcription of specific target genes. Although Ap regulates various developmental processes, its function in the adult brain remains unclear. Here, we report that Ap and Chi in the neurons expressing PDF, a neuropeptide, play important roles in proper sleep/wake regulation in adult flies. PDF-expressing neurons consist of two neuronal clusters: small ventral-lateral neurons (s-LNvs) acting as the circadian pacemaker and large ventral-lateral neurons (l-LNvs) regulating light-driven arousal. We identified that Ap localizes to the nuclei of s-LNvs and l-LNvs. In light-dark (LD) cycles, RNAi knockdown or the targeted expression of dominant-negative forms of Ap or Chi in PDF-expressing neurons or l-LNvs promoted arousal. In contrast, in constant darkness, knockdown of Ap in PDF-expressing neurons did not promote arousal, indicating that a reduced Ap function in PDF-expressing neurons promotes light-driven arousal. Furthermore, Ap expression in l-LNvs showed daily rhythms (peaking at midnight), which are generated by a direct light-dependent mechanism rather than by the endogenous clock. These results raise the possibility that the daily oscillation of Ap expression in l-LNvs may contribute to the buffering of light-driven arousal in wild-type flies.
Highlights
The Drosophila LIM-homeodomain (LIM-HD) protein, Apterous (Ap), acts as a transcription factor, and it is evolutionarily conserved across species[1]
We observed the colocalization of Ap::GFP and the nucleus-targeted mCherry reporter for pigment-dispersing factor (PDF) neurons in Pdf-GAL4/ap::GFP; UAS-mCherry.NLS/+flies, and confirmed that Ap localizes to the nuclei of PDF neurons including l-LNvs and s-LNvs (Fig. 1)
We focus on the total sleep amount and waking time, because these sleep/wake parameters are most significantly affected by ap knockdown in a PDF neuron-dependent manner
Summary
The Drosophila LIM-homeodomain (LIM-HD) protein, Apterous (Ap), acts as a transcription factor, and it is evolutionarily conserved across species[1]. The transcriptional regulation through the Ap/Chi complex plays a key role in wing development, the roles of Ap and its cofactor in adult brain neurons is largely unknown. The sleep-like state is widely conserved among animal species[13,14], and Drosophila has been used in studies to clarify the genetic basis of sleep/wake regulation[15,16]. Microarray analysis revealed that the expression levels of 577 genes including ap are elevated in l-LNvs[21] It remains unknown whether Ap expression in l-LNvs plays a crucial role in proper sleep/wake behaviors. This study revealed that Ap is expressed in some l-LNvs and s-LNvs in the adult brain, and indicated that Ap and Chi in l-LNvs are involved in sleep/wake regulation by buffering light-driven arousal
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