Abstract
Pumilio (Pum), an RNA‐binding protein, is a key component of neuron firing‐rate homeostasis that likely maintains stability of neural circuit activity in all animals, from flies to mammals. While Pum is ubiquitously expressed, we understand little about how synaptic excitation regulates its expression in the CNS. Here, we characterized the Drosophila dpum promoter and identified multiple myocyte enhancer factor‐2 (Mef2)‐binding elements. We cloned 12 dmef2 splice variants and used a luciferase‐based assay to monitor dpum promoter activity. While all 12 dMef2 splice variants enhance dpum promoter activity, exon 10‐containing variants induce greater transactivation. Previous work shows dPum expression increases with synaptic excitation. However, we observe no change in dmef2 transcript in larval CNS, of both sexes, exposed to the proconvulsant picrotoxin. The lack of activity dependence is indicative of additional regulation. We identified p300 as a potential candidate. We show that by binding to dMef2, p300 represses dpum transactivation. Significantly, p300 transcript is downregulated by enhanced synaptic excitation (picrotoxin) which, in turn, increases transcription of dpum through derepression of dMef2. These results advance our understanding of dpum by showing the activity‐dependent expression is regulated by an interaction between p300 and dMef2.
Highlights
Pumilio (Pum), a founding member of the Pum/FBF (Puf) RNA‐binding protein family, is central to multiple aspects of central nervous system (CNS) function, including firing‐rate homeostasis, dendritic morphogenesis, synaptic growth and function, expression of acetylcholinesterase and long‐term memory (Chen et al, 2008; Driscoll, Muraro, He, & Baines, 2013; Menon et al, 2004; Muraro et al, 2008; Vessey et al, 2010)
Unlike dMef2, we show that p300 expression is directly regulated by neuronal activity and, provide a potential route through which membrane depolarization regulates the expression level of dpum
Interrogation of transcription factor databases (TRANSFAC model, MAPPER; Marinescu et al, 2005), identified putative binding motifs for 114 transcription factors within the region −2,000 to +1
Summary
Work on this project benefited from the Manchester Fly Facility, established through funds from the University and the Wellcome Trust (087742/Z/08/Z)
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