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| Status |
Public on Mar 08, 2017 |
| Title |
Octopamine Enhances Oxidative Stress Resistance Through the Fasting-Responsive Transcription Factor DAF-16/FOXO in C. elegans |
| Organism |
Caenorhabditis elegans |
| Experiment type |
Expression profiling by array
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| Summary |
Dietary restriction regimens lead to enhanced stress resistance and extended lifespan in many species through the regulation of fasting and/or diet responsive mechanisms. The fasting stimulus is perceived by sensory neurons and causes behavioral and metabolic adaptations. Several studies have implicated that the nervous system is involved in the regulation of longevity. However, it remains largely unknown whether the nervous system contributes to the regulation of lifespan and/or stress resistance elicited by fasting. In this study, we first investigated the role of the nervous system in fasting-elicited longevity and stress resistance. We found that lifespan extension in Caenorhabditis elegans caused by an intermittent fasting (IF) regimen was suppressed by functional defects in sensory neurons. The IF-induced longevity was also suppressed in a mutant that lacks the enzyme required for the synthesis of an amine neurotransmitter, octopamine (OA), which acts in the absence of food, i.e., under fasting conditions. Although OA administration did not significantly extend the lifespan, it enhanced organismal resistance to oxidative stress. This enhanced resistance was suppressed by a mutation of the OA receptors, SER-3 and SER-6. Moreover, we found that OA administration promoted the nuclear translocation of DAF-16, the key transcription factor in fasting responses, and that the OA-induced enhancement of stress resistance required DAF-16. Altogether, our results suggest that OA signaling, which is triggered by the absence of food, shifts the organismal state to a more protective one to prepare for environmental stresses.
To investigate the involvement of DAF-16 and octopamine receptors (SER-3 and SER-6) in octopamine-induced genome-wide transcriptome alterations, we conducted transcriptome analysis.
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| Overall design |
Synchronized animals (wild-type N2, daf-16, and ser-3;ser-6) were raised under normal conditions. Then, young adult animals were treated with or without 20 mg/mL octopamine for 2 days. After 2 days OA administration, we collected animals and isolated total RNA. The total RNAs were subjected to microarray analysis.
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| Contributor(s) |
Hoshikawa H, Uno M, Honjoh S, Nishida E |
| Citation(s) |
28105749 |
| Submission date |
Nov 09, 2016 |
| Last update date |
Jun 07, 2017 |
| Contact name |
Masaharu Uno |
| Organization name |
Kyoto University
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| Department |
Graduate School of Biostudies
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| Lab |
Department of Cell and Developmental Biology
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| Street address |
Sakyo-ku
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| City |
Kyoto |
| ZIP/Postal code |
606-8502 |
| Country |
Japan |
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| Platforms (1) |
| GPL200 |
[Celegans] Affymetrix C. elegans Genome Array |
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| Samples (6)
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| Relations |
| BioProject |
PRJNA353023 |
| Supplementary file |
Size |
Download |
File type/resource |
| GSE89731_RAW.tar |
10.8 Mb |
(http)(custom) |
TAR (of CEL) |
| Processed data included within Sample table |
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