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Amino acids are sensitive glucagon receptor-specific biomarkers for glucagon-like peptide-1 receptor/glucagon receptor dual agonists.

Diabetes Obes Metab · 2020

Last updated 2026-06-21

In animal studies, a drug called Compound 2 that activates both GLP-1 and glucagon receptors significantly lowered amino acid levels in mice, even when food intake, body weight, blood sugar, or insulin did not change. A drug that only activates GLP-1 receptors (dulaglutide) had no effect on amino acids, but increasing glucagon activity—either with Compound 2 or glucagon itself—reduced amino acid levels in monkeys.

AI summary of the abstract below.

JournalDiabetes Obes Metab, 2020
Citations20
Relative citation ratio0.83
NIH percentile44
Molecules

Abstract

AIM: The aim of this study was to evaluate amino acids as glucagon receptor (GCGR)-specific biomarkers in rodents and cynomolgus monkeys in the presence of agonism of both glucagon-like peptide-1 receptor (GLP1R) and GCGR with a variety of dual agonist compounds. MATERIALS AND METHODS: Primary hepatocytes, rodents (normal, diet-induced obese and GLP1R knockout) and cynomolgus monkeys were treated with insulin (hepatocytes only), glucagon (hepatocytes and cynomolgus monkeys), the GLP1R agonist, dulaglutide, or a variety of dual agonists with varying GCGR potencies. RESULTS: A long-acting dual agonist, Compound 2, significantly decreased amino acids in both wild-type and GLP1R knockout mice in the absence of changes in food intake, body weight, glucose or insulin, and increased expression of hepatic amino acid transporters. Dulaglutide, or a variant of Compound 2 lacking GCGR agonism, had no effect on amino acids. A third variant with ~31-fold less GCGR potency than Compound 2 significantly decreased amino acids, albeit to a significantly lesser extent than Compound 2. Dulaglutide (with saline infusion) had no effect on amino acids, but an infusion of glucagon dose-dependently decreased amino acids on the background of GLP1R engagement (dulaglutide) in cynomolgus monkeys, as did Compound 2. CONCLUSIONS: These results show that amino acids are sensitive and translatable GCGR-specific biomarkers.

Verbatim abstract via PubMed 33463043 ↗