GIPR:GCGR co-agonism restores normal weight in obese rodents.
This preclinical study investigated whether obesity could be reversed without activating the GLP-1 receptor (GLP-1R), which is commonly associated with adverse gastrointestinal side effects in current therapies. Using diet-induced obese (DIO) mice and rats, as well as GLP-1R knock-out (KO) mice, researchers tested selective, dual, and triple agonists targeting the GIP receptor (GIPR), glucagon receptor (GCGR), and GLP-1R in various combinations. Three independent experimental approaches — (1) administering the triagonist retatrutide to GLP-1R KO mice, (2) physically combining separate selective GIPR and GCGR agonists, and (3) testing a novel unimolecular GIPR:GCGR co-agonist called BWB3054 — all demonstrated meaningful reductions in body weight and improvements in blood glucose without meaningful GLP-1R engagement. BWB3054 showed potency at the mouse GIPR comparable to retatrutide, 4-fold reduced potency at the mouse GCGR, and more than 100-fold reduced potency at the mouse GLP-1R. Indirect calorimetry and pair-feeding studies were used to characterize mechanisms of weight loss. A key limitation is that all experiments were conducted in rodents, leaving the translatability of these findings to humans uncertain. The study raises the possibility that GLP-1R-independent obesity treatment strategies could avoid the GI tolerability issues seen with current agents.
Why this grade: All experimental work was conducted exclusively in rodent models (DIO mice, GLP-1R KO mice, and rats), with no human subjects or clinical data reported.
Objectives Functional co- and tri-agonists at the receptors for GLP-1, GIP and glucagon effectively decrease body weight and hyperglycemia but are associated with adverse gastrointestinal effects related to GLP-1R agonism. Here we report the discovery that obesity can be reversed in the absence of a functional GLP-1R. It propelled the identification of a unimolecular GIPR:GCGR co-agonist lacking GLP-1 activity that corrects obesity in obese mice and rats. Methods Selective, dual, and triple sustained-action agonists at GIPR, GCGR and GLP-1R were used to assess body weight and glucose management in diet-induced obese (DIO) wildtype (WT) and GLP-1R knock-out (KO) mice. Indirect calorimetry and pair-feeding studies were used to characterize the magnitude of weight lowering specifically to suppression of food intake relative to energy expenditure. Results When used in physical co-mixture, selective GIPR agonism interacts with selective GCGR agonism to correct obesity and enhance glycemia in DIO mice. Retatrutide a balanced GLP-1R:GIPR:GCGR triagonist normalized body weight in obese GLP-1R KO mice. BWB3054, a fatty acylated GIPR:GCGR co-agonist, was identified as comparably potent as retatrutide to induce cAMP production at the mGIPR, and 4-fold reduced at mGCGR, but notably more than 100-fold diminished at mGLP-1R. Despite minimal relative GLP-1R potency, BWB3054 reduces excess body weight in obese DIO-mice to a similar degree as that observed for retatrutide in obese GLP-1R KO mice. Conclusions Correction of obesity and glycemia in mice without employing GLP-1 agonism was demonstrated by three independent methods (GLP-1R KO with retatrutide, GIPR:GCGR physical co-agonism mixture, and GIPR:GCGR covalent co-agonist) which advocate for the prospect that the adverse GI effects commonly associated with its use might be avoided.
Educational summary of published research — not medical advice. License: cc by-nc-nd. Full text is shown only where licensing permits.