Liver-expressed antimicrobial peptide 2 (LEAP2) is an endogenous antagonist and inverse agonist of the ghrelin receptor, countering ghrelin's effects on cell signaling and feeding. However, despite an emerging interest in LEAP2's physiology and pharmacology, its endocrine regulation remains unclear. Here, we report that plasma LEAP2 levels decrease significantly upon glucagon infusions during somatostatin clamps in humans. This effect is preserved in patients with obesity and type 2 diabetes while diminished following a hypercaloric diet and a sedentary lifestyle for 2 weeks. Additionally, insulin receptor antagonism offsets the upregulation of LEAP2 during the postprandial state in mice. Finally, insulin and glucagon receptor-expressing hepatocytes are the primary source of hepatic LEAP2 expression, coinciding with a putative enhancer-like signature bound by insulin- and glucagon-regulated transcription factors at the LEAP2 locus. Collectively, our findings implicate insulin and glucagon in regulating LEAP2 and warrant further investigations into the exact mechanisms orchestrating this endocrine axis.
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