Metabolic sensing in AgRP neurons integrates homeostatic state with dopamine signalling in the striatum

• Published in: eLife Vol. 11
• Main Authors: Reichenbach, Alex, Clarke, Rachel E, Stark, Romana, Lockie, Sarah Haas, Mequinion, Mathieu, Dempsey, Harry, Rawlinson, Sasha, Reed, Felicia, Sepehrizadeh, Tara, DeVeer, Michael, Munder, Astrid C, Nunez-Iglesias, Juan, Spanswick, David C, Mynatt, Randall, Kravitz, Alexxai V, Dayas, Christopher V, Brown, Robyn, Andrews, Zane B
• Format: Journal Article
• Language: English
• Published: England eLife Sciences Publications Ltd 12.01.2022; eLife Sciences Publications, Ltd
• Subjects: Acetyltransferase; Agouti-Related Protein - genetics; Agouti-Related Protein - metabolism; AgRP; Animals; Carnitine; Caudate-putamen; Chemoreception; Corpus Striatum - physiology; Dopamine; Dopamine - physiology; fasting; FED3; Food; Food consumption; Glucose; Homeostasis; Hunger; Medicine; Metabolism; Mice; Mice, Knockout; Motivation; Neostriatum; Neurons; Neurons - physiology; Neuroscience; Nucleus accumbens; Operant conditioning; Photometry; Reinforcement; Rodents; Signal Transduction; Sucrose; mouse; neuroscience; motivation; fasting; medicine; AgRP; photometry; dopamine; FED3
• ISSN: 2050-084X; 2050-084X
• DOI: 10.7554/eLife.72668

Agouti-related peptide (AgRP) neurons increase motivation for food, however, whether metabolic sensing of homeostatic state in AgRP neurons potentiates motivation by interacting with dopamine reward systems is unexplored. As a model of impaired metabolic-sensing, we used the AgRP-specific deletion of carnitine acetyltransferase ( ) in mice. We hypothesised that metabolic sensing in AgRP neurons is required to increase motivation for food reward by modulating accumbal or striatal dopamine release. Studies confirmed that deletion in AgRP neurons (KO) impaired ex vivo glucose-sensing, as well as in vivo responses to peripheral glucose injection or repeated palatable food presentation and consumption. Impaired metabolic-sensing in AgPP neurons reduced acute dopamine release (seconds) to palatable food consumption and during operant responding, as assessed by GRAB-DA photometry in the nucleus accumbens, but not the dorsal striatum. Impaired metabolic-sensing in AgRP neurons suppressed radiolabelled 18F-fDOPA accumulation after ~30 min in the dorsal striatum but not the nucleus accumbens. Impaired metabolic sensing in AgRP neurons suppressed motivated operant responding for sucrose rewards during fasting. Thus, metabolic-sensing in AgRP neurons is required for the appropriate temporal integration and transmission of homeostatic hunger-sensing to dopamine signalling in the striatum.