Neuronal SKN-1B Modulates Nutritional Signalling Pathways and Mitochondrial Networks to Control Satiety

Published: July 22, 2020, 9:03 p.m.

Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.07.21.213504v1?rss=1 Authors: Tataridas-Pallas, N., Thompson, M. A., Howard, A., Brown, I., Ezcurra, M., Wu, Z., Kuerten, T., Goncalves Silva, I., Blackwell, T. K., Tullet, J. M. A. Abstract: 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), acts in two hypothalamus-like ASI neurons to sense food, communicate nutritional status to the organism, and control satiety and exploratory behaviours. It achieves this by modulating endocrine signalling pathways (IIS and TGF-{beta}), and by promoting a robust mitochondrial network. Our data suggest a food-sensing and satiety role for mammalian Nrf proteins. Copy rights belong to original authors. Visit the link for more info