Neuronal SKN-1B modulates nutritional signalling pathways and mitochondrial networks to control satiety

The feeling of hunger or satiety results from integration of the sensory nervous system with other physiological and metabolic cues. This regulates food intake, maintains homeostasis and prevents disease. In C. elegans, chemosensory neurons sense food and relay information to the rest of the animal...

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Autores principales: Tataridas-Pallas, Nikolaos, Thompson, Maximillian A., Howard, Alexander, Brown, Ian, Ezcurra, Marina, Wu, Ziyun, Silva, Isabel Goncalves, Saunter, Christopher D., Kuerten, Timo, Weinkove, David, Blackwell, T. Keith, Tullet, Jennifer M. A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2021
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7932105/
https://www.ncbi.nlm.nih.gov/pubmed/33661901
http://dx.doi.org/10.1371/journal.pgen.1009358
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author Tataridas-Pallas, Nikolaos
Thompson, Maximillian A.
Howard, Alexander
Brown, Ian
Ezcurra, Marina
Wu, Ziyun
Silva, Isabel Goncalves
Saunter, Christopher D.
Kuerten, Timo
Weinkove, David
Blackwell, T. Keith
Tullet, Jennifer M. A.
author_facet Tataridas-Pallas, Nikolaos
Thompson, Maximillian A.
Howard, Alexander
Brown, Ian
Ezcurra, Marina
Wu, Ziyun
Silva, Isabel Goncalves
Saunter, Christopher D.
Kuerten, Timo
Weinkove, David
Blackwell, T. Keith
Tullet, Jennifer M. A.
author_sort Tataridas-Pallas, Nikolaos
collection PubMed
description The feeling of hunger or satiety results from integration of the sensory nervous system with other physiological and metabolic cues. This regulates food intake, maintains homeostasis and prevents disease. In C. elegans, chemosensory neurons sense food and relay information to the rest of the animal via hormones to control food-related behaviour and physiology. Here we identify a new component of this system, SKN-1B which acts as a central food-responsive node, ultimately controlling satiety and metabolic homeostasis. SKN-1B, an ortholog of mammalian NF-E2 related transcription factors (Nrfs), has previously been implicated with metabolism, respiration and the increased lifespan incurred by dietary restriction. Here we show that SKN-1B acts in two hypothalamus-like ASI neurons to sense food, communicate nutritional status to the organism, and control satiety and exploratory behaviours. This is achieved by SKN-1B modulating endocrine signalling pathways (IIS and TGF-β), and by promoting a robust mitochondrial network. Our data suggest a food-sensing and satiety role for mammalian Nrf proteins.
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spelling pubmed-79321052021-03-10 Neuronal SKN-1B modulates nutritional signalling pathways and mitochondrial networks to control satiety Tataridas-Pallas, Nikolaos Thompson, Maximillian A. Howard, Alexander Brown, Ian Ezcurra, Marina Wu, Ziyun Silva, Isabel Goncalves Saunter, Christopher D. Kuerten, Timo Weinkove, David Blackwell, T. Keith Tullet, Jennifer M. A. PLoS Genet Research Article The feeling of hunger or satiety results from integration of the sensory nervous system with other physiological and metabolic cues. This regulates food intake, maintains homeostasis and prevents disease. In C. elegans, chemosensory neurons sense food and relay information to the rest of the animal via hormones to control food-related behaviour and physiology. Here we identify a new component of this system, SKN-1B which acts as a central food-responsive node, ultimately controlling satiety and metabolic homeostasis. SKN-1B, an ortholog of mammalian NF-E2 related transcription factors (Nrfs), has previously been implicated with metabolism, respiration and the increased lifespan incurred by dietary restriction. Here we show that SKN-1B acts in two hypothalamus-like ASI neurons to sense food, communicate nutritional status to the organism, and control satiety and exploratory behaviours. This is achieved by SKN-1B modulating endocrine signalling pathways (IIS and TGF-β), and by promoting a robust mitochondrial network. Our data suggest a food-sensing and satiety role for mammalian Nrf proteins. Public Library of Science 2021-03-04 /pmc/articles/PMC7932105/ /pubmed/33661901 http://dx.doi.org/10.1371/journal.pgen.1009358 Text en © 2021 Tataridas-Pallas et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Tataridas-Pallas, Nikolaos
Thompson, Maximillian A.
Howard, Alexander
Brown, Ian
Ezcurra, Marina
Wu, Ziyun
Silva, Isabel Goncalves
Saunter, Christopher D.
Kuerten, Timo
Weinkove, David
Blackwell, T. Keith
Tullet, Jennifer M. A.
Neuronal SKN-1B modulates nutritional signalling pathways and mitochondrial networks to control satiety
title Neuronal SKN-1B modulates nutritional signalling pathways and mitochondrial networks to control satiety
title_full Neuronal SKN-1B modulates nutritional signalling pathways and mitochondrial networks to control satiety
title_fullStr Neuronal SKN-1B modulates nutritional signalling pathways and mitochondrial networks to control satiety
title_full_unstemmed Neuronal SKN-1B modulates nutritional signalling pathways and mitochondrial networks to control satiety
title_short Neuronal SKN-1B modulates nutritional signalling pathways and mitochondrial networks to control satiety
title_sort neuronal skn-1b modulates nutritional signalling pathways and mitochondrial networks to control satiety
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7932105/
https://www.ncbi.nlm.nih.gov/pubmed/33661901
http://dx.doi.org/10.1371/journal.pgen.1009358
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