Exogenous ghrelin administration increases alcohol self-administration and modulates brain functional activity in heavy-drinking alcohol-dependent individuals

Preclinical evidence suggests that ghrelin, a peptide synthesized by endocrine cells of the stomach and a key component of the gut–brain axis, is involved in alcohol seeking as it modulates both central reward and stress pathways. However, whether and how ghrelin administration may impact alcohol in...

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Bibliographic Details
Published in:	Molecular psychiatry Vol. 23; no. 10; pp. 2029 - 2038
Main Authors:	Farokhnia, M, Grodin, E N, Lee, M R, Oot, E N, Blackburn, A N, Stangl, B L, Schwandt, M L, Farinelli, L A, Momenan, R, Ramchandani, V A, Leggio, L
Format:	Journal Article
Language:	English
Published:	London Nature Publishing Group UK 01-10-2018 Nature Publishing Group
Subjects:	Administration, Intravenous Adult Alcohol Drinking - drug therapy Alcohol Drinking - physiopathology Alcohol use Alcoholic beverages Alcoholics Alcoholism Alcoholism - metabolism Alcohols Amygdala Amygdala - metabolism Behavioral Sciences Biological Psychology Brain Brain - metabolism Brain mapping Care and treatment Cross-Over Studies Crossovers Diagnostic imaging Double-Blind Method Drinking (Alcoholic beverages) Drinking behavior Drug self-administration Drug therapy Drug-Seeking Behavior - drug effects Endocrine cells Ethanol - administration & dosage Female Functional magnetic resonance imaging Ghrelin Ghrelin - administration & dosage Ghrelin - metabolism Ghrelin - pharmacology Humans Intravenous administration Male Medicine Medicine & Public Health Middle Aged Neuroimaging Neurology Neurophysiology Neurosciences Nucleus accumbens Peptides Pharmacotherapy Proof of Concept Study Psychiatry Reinforcement Reward Self Administration Stomach Substance abuse treatment
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Summary:	Preclinical evidence suggests that ghrelin, a peptide synthesized by endocrine cells of the stomach and a key component of the gut–brain axis, is involved in alcohol seeking as it modulates both central reward and stress pathways. However, whether and how ghrelin administration may impact alcohol intake in humans is not clear. For, we believe, the first time, this was investigated in the present randomized, crossover, double-blind, placebo-controlled, human laboratory study. Participants were non-treatment-seeking alcohol-dependent heavy-drinking individuals. A 10-min loading dose of intravenous ghrelin/placebo (3 mcg kg −1 ) followed by a continuous ghrelin/placebo infusion (16.9 ng/kg/min) was administered. During a progressive-ratio alcohol self-administration experiment, participants could press a button to receive intravenous alcohol using the Computerized Alcohol Infusion System. In another experiment, brain functional magnetic resonance imaging was conducted while participants performed a task to gain points for alcohol, food or no reward. Results showed that intravenous ghrelin, compared to placebo, significantly increased the number of alcohol infusions self-administered (percent change: 24.97±10.65, P =0.04, Cohen’s d =0.74). Participants were also significantly faster to initiate alcohol self-administration when they received ghrelin, compared to placebo ( P =0.03). The relationships between breath alcohol concentration and subjective effects of alcohol were also moderated by ghrelin administration. Neuroimaging data showed that ghrelin increased the alcohol-related signal in the amygdala ( P =0.01) and modulated the food-related signal in the medial orbitofrontal cortex ( P =0.01) and nucleus accumbens ( P =0.08). These data indicate that ghrelin signaling affects alcohol seeking in humans and should be further investigated as a promising target for developing novel medications for alcohol use disorder.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-News-2 ObjectType-Feature-3 content type line 23
ISSN:	1359-4184 1476-5578
DOI:	10.1038/mp.2017.226