AI Article Synopsis
- - Interoception is the awareness of internal bodily signals and plays a key role in maintaining balance in the body (homeostasis), affecting both our thoughts and emotions.
- - The study explored how mouse neurons in the insular cortex (InsCtx) respond to hunger and thirst, showing that InsCtx activity reflects physiological needs rather than behavior.
- - Findings suggest that InsCtx combines signals from the body’s current state with inputs from the hypothalamus to predict future needs for food or water.
Article Abstract
Interoception, the sense of internal bodily signals, is essential for physiological homeostasis, cognition, and emotions. While human insular cortex (InsCtx) is implicated in interoception, the cellular and circuit mechanisms remain unclear. We imaged mouse InsCtx neurons during two physiological deficiency states: hunger and thirst. InsCtx ongoing activity patterns reliably tracked the gradual return to homeostasis but not changes in behavior. Accordingly, while artificial induction of hunger or thirst in sated mice via activation of specific hypothalamic neurons (AgRP or SFO) restored cue-evoked food- or water-seeking, InsCtx ongoing activity continued to reflect physiological satiety. During natural hunger or thirst, food or water cues rapidly and transiently shifted InsCtx population activity to the future satiety-related pattern. During artificial hunger or thirst, food or water cues further shifted activity beyond the current satiety-related pattern. Together with circuit-mapping experiments, these findings suggest that InsCtx integrates visceral-sensory signals of current physiological state with hypothalamus-gated amygdala inputs that signal upcoming ingestion of food or water to compute a prediction of future physiological state.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7083695 | PMC |
| http://dx.doi.org/10.1016/j.neuron.2019.12.027 | DOI Listing |
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