GLP-1-mediated targeting of inflammation corrects obesogenic memory in male mice

Obesity-induced biological changes often persist after weight loss and are difficult to reverse, a phenomenon known as ‘obesogenic memory’. This enduring effect is associated with metabolic inflammation, particularly in adipose tissue. In this study, we characterise a mouse model of obesogenic memory and evaluate the efficacy of the unimolecular conjugate GLP-1/Dexa, which selectively and safely delivers the anti-inflammatory drug dexamethasone to GLP-1 receptor (GLP-1R)-expressing cells. We document that this precision pharmacological approach outperforms treatment with GLP-1 or dexamethasone alone, significantly reducing body weight, food intake, adiposity and markers of adipose tissue inflammation in male mice with obesogenic memory. In addition, we identify the CCR2/CCL2 inflammatory pathway as an important mediator of glucose intolerance and adipose tissue inflammation associated with obesogenic memory. Our findings suggest that targeting inflammation via GLP-1R signalling may be a promising therapeutic strategy to alleviate obesogenic memory and improve the long-term clinical management of metabolic diseases.