Cannabis Sativa targets mediobasal hypothalamic neurons to stimulate appetite

Author:

Wheeler Emma C.,Choi Pique,De Howitt Joanne,Gill Sumeen,Watson Shane,Yu Sue,Wahl Peyton,Diaz Cecilia,Mohr Claudia,Zinski Amy,Jiang Zhihua,Rossi David,Davis Jon F.

Abstract

AbstractThe neurobiological mechanisms that regulate the appetite-stimulatory properties of cannabis sativa are unresolved. This work examined the hypothesis that cannabinoid-1 receptor (CB1R) expressing neurons in the mediobasal hypothalamus (MBH) regulate increased appetite following cannabis vapor inhalation. Here we utilized a paradigm where vaporized cannabis plant matter was administered passively to rodents. Initial studies in rats characterized meal patterns and operant responding for palatable food following exposure to air or vapor cannabis. Studies conducted in mice used a combination of in vivo optical imaging, electrophysiology and chemogenetic manipulations to determine the importance of MBH neurons for cannabis-induced feeding behavior. Our data indicate that cannabis vapor increased meal frequency and food seeking behavior without altering locomotor activity. Importantly, we observed augmented MBH activity within distinct neuronal populations when mice anticipated or consumed food. Mechanistic experiments demonstrated that pharmacological activation of CB1R attenuated inhibitory synaptic tone onto hunger promoting Agouti Related Peptide (AgRP) neurons within the MBH. Lastly, chemogenetic inhibition of AgRP neurons attenuated the appetite promoting effects of cannabis vapor. Based on these results, we conclude that MBH neurons contribute to the appetite stimulatory properties of inhaled cannabis.

Funder

State of Washington Dedicated Marijuana Account

National Institute on Alcohol Abuse and Alcoholism

National Institute of Food and Agriculture

Washington State University Agricultural Experiment Station

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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