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760-P: TERN-501 Enhances Weight Loss Efficacy of a GLP-1R Agonist in Obese Mice via Increased Fat Mass Loss without Additional Loss of Lean Mass

CHRISTOPHER JONES, Olivia Osborn, KEVIN P. QUINN, Michael Feigh, Andreas Nygaard Madsen, Jeffrey R. Jasper

2024Diabetes28 citationsDOI

Abstract

Introduction & Objective: GLP-1R agonists suppress food intake resulting in weight loss but efficacy is limited by metabolic adaptation, a compensatory process that lowers energy expenditure (EE). Thyroid hormone receptor beta (THRβ) regulates EE providing a potential mechanism to mitigate metabolic adaptation. TERN-501, a highly selective THRβ agonist, has shown excellent safety and significant liver fat reduction in a Ph2a study in patients with metabolic dysfunction-associated steatohepatitis. The combined effects of TERN-501 and GLP-1R agonism may offer benefits over either agent alone in reducing body weight. Methods: Male C57BL/6JRj mice were fed high fat diet (60% HFD) for 24 weeks prior to study start. Mice (~55 g BW) were treated once daily with vehicle, TERN-501 (6 mg/kg PO), semaglutide (sema, 30 nmol/kg SQ), or 501+sema for up to 6-weeks at thermal neutrality. Body weight and food intake were measured daily. Body composition was assessed by EchoMRI and EE was measured in metabolic chambers. Results: TERN-501 significantly enhanced the weight loss efficacy of sema (-26% vs -33%, p <0.05) with increased fat mass loss (-11.8 g vs -15.2 g, p <0.05) without additional loss of lean mass. In contrast, the effect of TERN-501 alone on body weight was similar to vehicle (-1.6% vs 1.5%, p >0.05). In mice with higher initial body weight, 501+sema resulted in an additional 17% body weight loss vs sema alone. In combination with sema, TERN-501 prevented lowering of EE typically induced by weight loss and was associated with increased levels of UCP-1 expression in subcutaneous adipose tissue. Conclusion: In obese mice, TERN-501 significantly improved the efficacy of a GLP-1R agonist by normalizing EE, resulting in greater weight loss, increased fat mass loss, and relative preservation of lean mass. These results suggest that TERN-501, a potent and highly selective THRβ agonist, may be an ideal combination partner for GLP-1 therapies. Disclosure C. Jones: Employee; Terns Pharmaceuticals. O. Osborn: None. K.P. Quinn: None. M. Feigh: Employee; Gubra. A. Madsen: None. J.R. Jasper: Employee; Terns Pharmaceuticals. Advisory Panel; Rubedo Life Sciences.

Topics & Concepts

Weight lossInternal medicineEndocrinologyLean body massAgonistTernFat massMedicineDiet-induced obeseBody weightChemistryObesityReceptorBiologyInsulin resistanceFisheryGrowth Hormone and Insulin-like Growth FactorsDiet and metabolism studiesMetabolism, Diabetes, and Cancer