1685-P: Dapiglutide Is a Dual Agonist on Human GLP-1- and GLP-2-Receptors with a Biased and Prolonged Signaling Profile at the GLP-1R

Dapiglutide, a potential first-in-class therapy targeting obesity and low-grade inflammation, is designed for activating both GLP-1 and GLP-2 receptors. In a MAD trial, healthy participants receiving once-weekly s.c. injections of dapiglutide up to 6 mg for 4 weeks showed dose-dependent body weight...

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Veröffentlicht in:Diabetes (New York, N.Y.) N.Y.), 2024-06, Vol.73, p.1
Hauptverfasser: Gjelstrup, Louise, Lundholt, Betina Kerstin, Larsen, Bjarne D, Johansen, Nicklas J, Olsen, Minna B, Mathiesen, Jesper M
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Sprache:eng
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Zusammenfassung:Dapiglutide, a potential first-in-class therapy targeting obesity and low-grade inflammation, is designed for activating both GLP-1 and GLP-2 receptors. In a MAD trial, healthy participants receiving once-weekly s.c. injections of dapiglutide up to 6 mg for 4 weeks showed dose-dependent body weight loss up to a mean 4.3%, and dose-dependent reductions of plasma glucose and insulin. At the cellular level, GLP-1R activation by native GLP-1 induces formation of its major second messenger cAMP and recruitment of β-arrestin. Recent studies hypothesized that biased agonists displaying lack of β-arrestin recruitment at the GLP-1R are beneficial in controlling blood glucose and body weight loss in DIO rats. Here we investigated the in vitro profile of dapiglutide, emphasizing on GLP-1R signaling bias and functional consequences. Binding assays using 125-iodinated radioligands were used to estimate binding affinities of dapiglutide for human GLP-1R and GLP-2R. The human GLP-1R in vitro signaling profile was investigated in a kinetic cAMP formation assay and for recruitment of β-arrestin in HEK293 cells. Initial in vitro characterization indicated that dapiglutide is more potent for binding to GLP-1R over GLP-2R, with estimated binding affinities of 38 nM and 102 nM, respectively.​ At the GLP-1R, dapiglutide showed signaling bias, displaying full agonist activity in cAMP formation, whilst having significantly blunted response to β-arrestin recruitment. Further in vitro characterization showed that dapiglutide-induced cAMP formation kinetics persisted for up to 12 hours unlike native GLP-1, potentially reflecting signal bias, lack of receptor desensitization, and a promising efficacy profile in the MAD trial. Dapiglutide, a dual GLP-1/GLP-2 agonist, has a unique GLP-1R biased agonism signaling profile that combined with additional GLP-2R activity may translate into an efficacious weight management therapy in individuals with obesity.
ISSN:0012-1797
1939-327X
DOI:10.2337/db24-1685-P