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Blunted Vagal Cocaine- and Amphetamine-Regulated Transcript Promotes Hyperphagia and Weight Gain

Shin J. Lee, Jean‐Philippe Krieger, Macarena Vergara, Danielle Quinn, Molly McDougle, Alan de Araujo, Rebecca A. Darling, Benjamin Zollinger, Seth Anderson, Annabeth Pan, Emilie J. Simonnet, Angelica Pignalosa, Myrtha Arnold, Arashdeep Singh, Wolfgang Langhans, Helen E. Raybould, Guillaume de Lartigue

2020Cell Reports42 citationsDOIOpen Access PDF

Abstract

The vagus nerve conveys gastrointestinal cues to the brain to control eating behavior. In obesity, vagally mediated gut-brain signaling is disrupted. Here, we show that the cocaine- and amphetamine-regulated transcript (CART) is a neuropeptide synthesized proportional to the food consumed in vagal afferent neurons (VANs) of chow-fed rats. CART injection into the nucleus tractus solitarii (NTS), the site of vagal afferent central termination, reduces food intake. Conversely, blocking endogenous CART action in the NTS increases food intake in chow-fed rats, and this requires intact VANs. Viral-mediated Cartpt knockdown in VANs increases weight gain and daily food intake via larger meals and faster ingestion rate. In obese rats fed a high-fat, high-sugar diet, meal-induced CART synthesis in VANs is blunted and CART antibody fails to increase food intake. However, CART injection into the NTS retains its anorexigenic effect in obese rats. Restoring disrupted VAN CART signaling in obesity could be a promising therapeutic approach.

Topics & Concepts

CartCocaine and amphetamine regulated transcriptEndocrinologyInternal medicineVagus nerveAmphetamineEndogenyNeuropeptideWeight gainMealGene knockdownNeuropeptide Y receptorIngestionMedicineBiologyReceptorBody weightDopamineApoptosisStimulationBiochemistryMechanical engineeringEngineeringRegulation of Appetite and ObesityBiochemical Analysis and Sensing TechniquesSleep and Wakefulness Research
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