Drosophila mushroom bodies integrate hunger and satiety signals to control innate food-seeking behavior
The fruit fly can evaluate its energy state and decide whether to pursue food-related cues. Here, we reveal that the mushroom body (MB) integrates hunger and satiety signals to control food-seeking behavior. We have discovered five pathways in the MB essential for hungry flies to locate and approach...
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2018-03-01
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| Online Access: | https://elifesciences.org/articles/35264 |
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doaj-3fc868fd4e7847feb7294b93a5fb47c42021-05-05T15:44:03ZengeLife Sciences Publications LtdeLife2050-084X2018-03-01710.7554/eLife.35264Drosophila mushroom bodies integrate hunger and satiety signals to control innate food-seeking behaviorChang-Hui Tsao0Chien-Chun Chen1Chen-Han Lin2Hao-Yu Yang3Suewei Lin4https://orcid.org/0000-0001-7079-7818Institute of Molecular Biology, Academia Sinica, Taipei, TaiwanInstitute of Molecular Biology, Academia Sinica, Taipei, TaiwanInstitute of Molecular Biology, Academia Sinica, Taipei, Taiwan; Department of Life Sciences and the Institute of Genome Sciences, National Yang-Ming University, Taipei, TaiwanInstitute of Molecular Biology, Academia Sinica, Taipei, TaiwanInstitute of Molecular Biology, Academia Sinica, Taipei, Taiwan; Department of Life Sciences and the Institute of Genome Sciences, National Yang-Ming University, Taipei, TaiwanThe fruit fly can evaluate its energy state and decide whether to pursue food-related cues. Here, we reveal that the mushroom body (MB) integrates hunger and satiety signals to control food-seeking behavior. We have discovered five pathways in the MB essential for hungry flies to locate and approach food. Blocking the MB-intrinsic Kenyon cells (KCs) and the MB output neurons (MBONs) in these pathways impairs food-seeking behavior. Starvation bi-directionally modulates MBON responses to a food odor, suggesting that hunger and satiety controls occur at the KC-to-MBON synapses. These controls are mediated by six types of dopaminergic neurons (DANs). By manipulating these DANs, we could inhibit food-seeking behavior in hungry flies or promote food seeking in fed flies. Finally, we show that the DANs potentially receive multiple inputs of hunger and satiety signals. This work demonstrates an information-rich central circuit in the fly brain that controls hunger-driven food-seeking behavior.https://elifesciences.org/articles/35264mushroom bodieshungerdopaminergic neuronsfood-seeking behaviorneural circuitsolfaction |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Chang-Hui Tsao Chien-Chun Chen Chen-Han Lin Hao-Yu Yang Suewei Lin |
| spellingShingle |
Chang-Hui Tsao Chien-Chun Chen Chen-Han Lin Hao-Yu Yang Suewei Lin Drosophila mushroom bodies integrate hunger and satiety signals to control innate food-seeking behavior eLife mushroom bodies hunger dopaminergic neurons food-seeking behavior neural circuits olfaction |
| author_facet |
Chang-Hui Tsao Chien-Chun Chen Chen-Han Lin Hao-Yu Yang Suewei Lin |
| author_sort |
Chang-Hui Tsao |
| title |
Drosophila mushroom bodies integrate hunger and satiety signals to control innate food-seeking behavior |
| title_short |
Drosophila mushroom bodies integrate hunger and satiety signals to control innate food-seeking behavior |
| title_full |
Drosophila mushroom bodies integrate hunger and satiety signals to control innate food-seeking behavior |
| title_fullStr |
Drosophila mushroom bodies integrate hunger and satiety signals to control innate food-seeking behavior |
| title_full_unstemmed |
Drosophila mushroom bodies integrate hunger and satiety signals to control innate food-seeking behavior |
| title_sort |
drosophila mushroom bodies integrate hunger and satiety signals to control innate food-seeking behavior |
| publisher |
eLife Sciences Publications Ltd |
| series |
eLife |
| issn |
2050-084X |
| publishDate |
2018-03-01 |
| description |
The fruit fly can evaluate its energy state and decide whether to pursue food-related cues. Here, we reveal that the mushroom body (MB) integrates hunger and satiety signals to control food-seeking behavior. We have discovered five pathways in the MB essential for hungry flies to locate and approach food. Blocking the MB-intrinsic Kenyon cells (KCs) and the MB output neurons (MBONs) in these pathways impairs food-seeking behavior. Starvation bi-directionally modulates MBON responses to a food odor, suggesting that hunger and satiety controls occur at the KC-to-MBON synapses. These controls are mediated by six types of dopaminergic neurons (DANs). By manipulating these DANs, we could inhibit food-seeking behavior in hungry flies or promote food seeking in fed flies. Finally, we show that the DANs potentially receive multiple inputs of hunger and satiety signals. This work demonstrates an information-rich central circuit in the fly brain that controls hunger-driven food-seeking behavior. |
| topic |
mushroom bodies hunger dopaminergic neurons food-seeking behavior neural circuits olfaction |
| url |
https://elifesciences.org/articles/35264 |
| work_keys_str_mv |
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