AgRP

Estimation of current and future physiological states in insular cortex

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. I will describe our recent work imaging 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/thirst in sated mice via activation of specific hypothalamic neurons (AgRP/SFOGLUT) restored cue-evoked food/water-seeking, InsCtx ongoing activity continued to reflect physiological satiety. During natural hunger/thirst, food/water cues rapidly and transiently shifted InsCtx population activity to the future satiety-related pattern. During artificial hunger/thirst, food/water cues further shifted activity beyond the current satiety-related pattern. Together with circuit-mapping experiments, these findings suggest that InsCtx integrates visceral-sensory inputs regarding current physiological state with hypothalamus-gated amygdala inputs signaling upcoming ingestion of food/water, to compute a prediction of future physiological state.

Long-term effects of diet-induced obesity on gut-brain communication

Rapid communication between the gut and the brain about recently consumed nutrients is critical for regulating food intake and maintaining energy homeostasis. We have shown that the infusion of nutrients directly into the gastrointestinal tract rapidly inhibits hunger-promoting AgRP neurons in the arcuate nucleus of the hypothalamus and suppresses subsequent feeding. The mechanism of this inhibition appears to be dependent upon macronutrient content, and can be recapitulated by a several hormones secreted in the gut in response to nutrient ingestion. In high-fat diet-induced obese mice, the response of AgRP neurons to nutrient-related stimuli are broadly attenuated. This attenuation is largely irreversible following weight loss and may represent a mechanism underlying difficulty with weight loss and propensity for weight regain in obesity.

Neurocircuits in control of integrative physiology

This open colloquia session is part of the special workshop entitled "Obesity at the Interface of Neuroscience and Physiology II". Abstract: Proopiomelanocortin (POMC)- and agouti related peptide (AgRP)-expressing neurons in the arcuate nucleus of the hypothalamus (ARH) are critical regulators of food intake and energy homeostasis. They rapidly integrate the energy state of the organism through sensing fuel availability via hormones, nutrient components and even rapidly upon sensory food perception. Importantly, they not only regulate feeding responses, but numerous autonomic responses including glucose and lipid metabolism, inflammation and blood pressure. More recently, we could demonstrate that sensory food cue-dependent regulation of POMC neurons primes the hepatic endoplasmic reticulum (ER) stress response to prime liver metabolism for the postpramndial state. The presentation will focus on the regulation of these neurons in control of integrative physiology, the identification of distinct neuronal circuitries targeted by these cells and finally on the broad range implications resulting from dysregulation of these circuits as a consequence of altered maternal metabolism.

DYSREGULATION OF THE AGRP–PVH CIRCUIT DISRUPTS SYMPATHETIC CONTROL OF BONE MARROW IN EXPERIMENTAL MULTIPLE SCLEROSIS

FENS Forum 2026

DAX1 IN AGRP NEURONS REGULATES THERMOGENESIS VIA GR-HDAC3-MEDIATED CRFR1 SUPPRESSION

FENS Forum 2026

A HYPOTHALAMIC CIRCUIT LINKING FOOD ODOR PERCEPTION TO AGRP NEURON SUPPRESSION

FENS Forum 2026

Acute stress regulates Agrp neuronal activity

FENS Forum 2024

The development of MC3R neurons, AgRP and POMC neuronal projections and the maintenance of intra-hypothalamic neuronal circuits

Impairment of AgRP neurons influences body weight, lifespan, and behavior in calorie-restricted mice

FENS Forum 2024

Multimodal mapping of lateral hypothalamic circuits that mediate the regulatory metabolic functions of AgRP neurons

Nicotinic activation of NPY/AgRP neurons of the arcuate nucleus and its role in stress and feeding