Body weight is regulated by interoceptive neural circuits that track energy need, but how the activity of these circuits is altered in obesity remains poorly understood. Here we describe the in vivo dynamics of hunger-promoting AgRP neurons during the development of diet-induced obesity in mice. We show that high-fat diet attenuates the response of AgRP neurons to an array of stimuli including food cues, intragastric nutrients, and the hormones cholecystokinin and ghrelin. These alterations are nutrient-specific, with AgRP neurons becoming desensitized to dietary fat but not carbohydrate or protein. Subsequent weight loss restores the responsiveness of AgRP neurons to exterosensory cues but fails to rescue their sensitivity to gastrointestinal hormones or nutrients. These findings reveal that obesity triggers broad dysregulation of hypothalamic hunger neurons that is incompletely reversed by weight loss and may contribute to the difficulty of maintaining a reduced weight.

Disclosure

Z. Knight: None.

Funding

American Diabetes Association/Pathway to Stop Diabetes (1-16-ACE-29)

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