Semaglutide, at a dose that produces modest weight loss, induces mild suppression of bone remodeling in healthy control rats and those with chronic kidney disease.

The effects of glucagon-like peptide-1 receptor agonist (GLP-1RA) treatment on bone are unclear. The goal of this study was to investigate the effects of semaglutide, a GLP-1RA, on bone structure, remodeling, and mechanical properties in healthy control animals and those with chronic kidney disease (CKD). Male Cy/+rats with progressive CKD and littermate controls were treated with escalating doses of semaglutide for 28 days. Endpoint measures included bone structure, assessed by micro-CT, bone remodeling, assessed by histomorphometry, and bone mechanical properties, assessed by 3-point bending tests. Semaglutide treatment led to reduced food intake and weight loss, with CKD rats receiving semaglutide having 15% lower body weight at the end of the study compared to untreated CKD rats, while control rats did not have a statistical difference in weight (-5%) at the end of the study. Muscle mass was also lower in semaglutide-treated animals compared to untreated groups. CKD led to higher blood urea nitrogen with no effect of semaglutide. Serum PTH was lower in control rats treated with semaglutide, but this effect was not seen in the CKD cohorts. There were also main effects of semaglutide on serum calcium and phosphorus levels. CKD resulted in lower trabecular bone volume and higher cortical porosity with no effect of semaglutide. Mineralizing surfaces from dynamic histomorphometry were lower in control rats treated with semaglutide compared to untreated control and bone formation rate also trended lower in semaglutide-treated animals (∼20%). CKD animals had lower mechanical properties; semaglutide effects were only noted in toughness. At doses causing mild weight loss, semaglutide modestly lowered trabecular bone remodeling with little interaction with CKD disease status.