DN1p Circadian Neurons Coordinate Acute Light and PDF Inputs to Produce Robust Daily Behavior in Drosophila

DN1p Circadian Neurons Coordinate Acute Light and PDF Inputs to Produce Robust Daily Behavior in Drosophila

Daily behaviors in animals are determined by the interplay between internal timing signals from circadian clocks and environmental stimuli such as light. How these signals are integrated to produce timely and adaptive behavior is unclear. The fruit fly Drosophila exhibits clock-driven activity incre...

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Bibliographic Details
Published in:Current biology Vol. 20; no. 7; pp. 591 - 599
Main Authors: Zhang, Luoying, Chung, Brian Y., Lear, Bridget C., Kilman, Valerie L., Liu, Yixiao, Mahesh, Guruswamy, Meissner, Rose-Anne, Hardin, Paul E., Allada, Ravi
Format: Journal Article
Language:English
Published: Elsevier Inc 13-04-2010
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MOLNEURO
MOLNEURO
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Summary:Daily behaviors in animals are determined by the interplay between internal timing signals from circadian clocks and environmental stimuli such as light. How these signals are integrated to produce timely and adaptive behavior is unclear. The fruit fly Drosophila exhibits clock-driven activity increases that anticipate dawn and dusk and free-running rhythms under constant conditions. Flies also respond to the onset of light and dark with acute increases in activity. Mutants of a novel ion channel, narrow abdomen (na), lack a robust increase in activity in response to light and show reduced anticipatory behavior and free-running rhythms, providing a genetic link between photic responses and circadian clock function. We used tissue-specific rescue of na to demonstrate a role for ∼16–20 circadian pacemaker neurons, a subset of the posterior dorsal neurons 1 (DN1ps), in mediating the acute response to the onset of light as well as morning anticipatory behavior. Circadian pacemaker neurons expressing the neuropeptide PIGMENT-DISPERSING FACTOR (PDF) are especially important for morning anticipation and free-running rhythms and send projections to the DN1ps. We also demonstrate that DN1pPdfr expression is sufficient to rescue, at least partially, Pdfr morning anticipation defects as well as defects in free-running rhythms, including those in DN1 molecular clocks. Additionally, these DN1 clocks in wild-type flies are more strongly reset to timing changes in PDF clocks than other pacemaker neurons, suggesting that they are direct targets. Taking these results together, we demonstrate that the DN1ps lie at the nexus of PDF and photic signaling to produce appropriate daily behavior. ► na functions within DN1p neurons to regulate lights-on response and morning behavior ► Pdfr functions within DN1p neurons to control morning and free-running rhythms ► DN1 molecular clocks are highly sensitive to period changes in PDF cells ► DN1p neurons integrate light and circadian signals to regulate diurnal behavior
ISSN:0960-9822
1879-0445
DOI:10.1016/j.cub.2010.02.056