mTORC1 in AGRP neurons integrates exteroceptive and interoceptive food-related cues in the modulation of adaptive energy expenditure in mice
Copyright policy )mTORC1 in AGRP neurons integrates exteroceptive and interoceptive food-related cues in the modulation of adaptive energy expenditure in mice
AbstractEnergy dissipation through interscapular brown adipose tissue (iBAT) thermogenesis is an important contributor to adaptive energy expenditure. However, it remains unresolved how acute and chronic changes in energy availability are detected by the brain to adjust iBAT activity and maintain energy homeostasis. Here we provide evidence that AGRP inhibitory tone to iBAT represents an energy-sparing circuit that integrates environmental food cues and internal signals of energy availability. We establish a role for the nutrient-sensing mTORC1 signaling pathway within AGRP neurons in the detection of environmental food cues and internal signals of energy availability, and in the bi-directional control of iBAT thermogenesis during nutrient deficiency and excess. Collectively, our findings provide insights into how mTORC1 signaling within AGRP neurons surveys energy availability to engage iBAT thermogenesis, and identify AGRP neurons as a neuronal substrate for the coordination of energy intake and adaptive expenditure under varying physiological and environmental contexts.
- University of Cambridge United Kingdom
- Albert Einstein College of Medicine United States
- University of Cambridge
- Universidade Nova de Lisboa
- Département de Psychologie Switzerland
obesity, medicine, QH301-705.5, Science, Mechanistic Target of Rapamycin Complex 1, neuroscience, Mice, energy expenditure, Animals, Agouti-Related Protein, Biology (General), hypothalamus, Human Biology and Medicine, mTORC1, mouse, Neurons, nutrient-sensing, Q, R, brown fat, human biology, Thermogenesis, Adipose Tissue, Medicine, Energy Metabolism, Signal Transduction
obesity, medicine, QH301-705.5, Science, Mechanistic Target of Rapamycin Complex 1, neuroscience, Mice, energy expenditure, Animals, Agouti-Related Protein, Biology (General), hypothalamus, Human Biology and Medicine, mTORC1, mouse, Neurons, nutrient-sensing, Q, R, brown fat, human biology, Thermogenesis, Adipose Tissue, Medicine, Energy Metabolism, Signal Transduction
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