Current Biology
Volume 21, Issue 10, 24 May 2011, Pages 825-834
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Article
C. elegans Notch Signaling Regulates Adult Chemosensory Response and Larval Molting Quiescence

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Summary

Background

The conserved DOS-motif proteins OSM-7 and OSM-11 function as coligands with canonical DSL (Delta, Serrate, and LAG-2) ligands to activate C. elegans Notch receptors during development. We report here that Notch ligands, coligands, and the receptors LIN-12 and GLP-1 regulate two C. elegans behaviors: chemosensory avoidance of octanol and quiescence during molting lethargus.

Results

C. elegans lacking osm-7 or osm-11 are defective in their response to octanol. We find that OSM-11 is secreted from hypodermal seam cells into the pseudocoelomic body cavity and acts non-cell autonomously as a diffusible factor. OSM-11 acts with the DSL ligand LAG-2 to activate LIN-12 and GLP-1 Notch receptors in the neurons of adult animals, thereby regulating octanol avoidance response. In adult animals, overexpression of osm-11 and consequent Notch receptor activation induces anachronistic sleep-like quiescence. Perturbation of Notch signaling alters basal activity in adults as well as arousal thresholds and quiescence during molting lethargus. Genetic epistasis studies reveal that Notch signaling regulates quiescence via previously identified circuits and genetic pathways including the egl-4 cGMP-dependent kinase.

Conclusions

Our findings indicate that the conserved Notch pathway modulates behavior in adult C. elegans in response to environmental stress. Additionally, Notch signaling regulates sleep-like quiescence in C. elegans, suggesting that Notch may regulate sleep in other species.

Highlights

► Notch receptors act in two groups of mature neurons to regulate chemosensory response ► Osmotic stress alters adult behavior by regulating Notch pathway signaling ► C. elegans molting quiescence, a sleep-like state, is regulated by the Notch pathway ► Notch signaling impacts total quiescence, arousal thresholds, and basal activity

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These authors contributed equally to this work