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Despite its clinical significance, pharmacological treatment options for alcohol use disorder (AUD) remained limited, which highlights the need for novel therapeutic targets. The ghrelin system has emerged as an important regulator of alcohol craving and intake. Liver-expressed antimicrobial peptide 2 (LEAP2) has recently been identified as an endogenous ghrelin receptor (GHSR) antagonist that influences metabolic and reward-related pathways.

As a secondary analysis of five different clinical trials, we measured LEAP2 concentrations in the collected blood samples and examined their association with alcohol craving and the effects of both acute and chronic alcohol use on LEAP2. In addition, we complemented these clinical trial analyses by conducting preclinical experiments in wild-type and GHSR-KO Wistar rats to investigate the effects of alcohol and ghrelin on LEAP2 concentrations.

In humans, LEAP2 concentrations negatively correlated with both priming- and cue-induced alcohol craving. Acute alcohol administration reduced LEAP2 concentrations 90min after oral alcohol intake, a response that was attenuated by co-administration of the GHSR inverse agonist PF-5190457. An intraperitoneal alcohol administration after a pre-treatment with ghrelin reduced LEAP2 concentrations in wild-type but not GHSR-KO Wistar rats. In contrast to acute alcohol administration, LEAP2 concentrations did not differ between people with alcohol use disorder and healthy controls and were unaffected by evidence of hepatocyte injury and alcohol abstinence.

These results enhance our understanding of the ghrelin system, particularly LEAP2, with regard to alcohol craving and consumption. This work may inform the development of novel interventions for alcohol use disorder.