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Drosophila Pacemaker Neurons Require G Protein Signaling and GABAergic Inputs to Generate Twenty-Four Hour Behavioral Rhythms

descriptionPublicationkeyboard_double_arrow_right Article 01 Dec 2010 English Publisher:Elsevier BVJournal:Neuron, volume 68, pages 964-977 (issn: 0896-6273,

Copyright policy )Funded by:NIH | STRUCTURE OF GABA-A RECEP..., NIH | EXTRAMURAL RESEARCH FACIL..., NIH | How do VRI and PDP1 regul...

Authors: Myles H. Akabas; David C. Reeves; David Dahdal; Justin Blau; Marc D. Ruben;

doi: 10.1016/j.neuron.2010.11.017

pmid: 21145008

pmc: PMC3030199

Drosophila Pacemaker Neurons Require G Protein Signaling and GABAergic Inputs to Generate Twenty-Four Hour Behavioral Rhythms

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Abstract

Intercellular signaling is important for accurate circadian rhythms. In Drosophila, the small ventral lateral neurons (s-LN(v)s) are the dominant pacemaker neurons and set the pace of most other clock neurons in constant darkness. Here we show that two distinct G protein signaling pathways are required in LN(v)s for 24 hr rhythms. Reducing signaling in LN(v)s via the G alpha subunit Gs, which signals via cAMP, or via the G alpha subunit Go, which we show signals via Phospholipase 21c, lengthens the period of behavioral rhythms. In contrast, constitutive Gs or Go signaling makes most flies arrhythmic. Using dissociated LN(v)s in culture, we found that Go and the metabotropic GABA(B)-R3 receptor are required for the inhibitory effects of GABA on LN(v)s and that reduced GABA(B)-R3 expression in vivo lengthens period. Although no clock neurons produce GABA, hyperexciting GABAergic neurons disrupts behavioral rhythms and s-LN(v) molecular clocks. Therefore, s-LN(v)s require GABAergic inputs for 24 hr rhythms.

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Keywords

Neurons, Neuroscience(all), GTP-Binding Protein alpha Subunits, Gi-Go, Circadian Rhythm, Receptors, GABA-B, Biological Clocks, Neural Pathways, GTP-Binding Protein alpha Subunits, Gs, Animals, Drosophila, Signal Transduction

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