Age‐dependent decline of B3AR agonist‐mediated activation of FAP UCP‐1 expression in murine models of chronic rotator cuff repair

Abstract

AbstractAmibegron, a β3‐adrenergic receptor (B3AR) agonist, has recently been shown to provide therapeutic effects for chronic rotator cuff (RC) tears by inducing the expression of uncoupling protein 1 (UCP‐1), a marker of brown fat, in fibroadipogenic progenitors (FAPs). However, it remains to be seen if these beneficial effects hold true with age and in older, more clinically relevant populations. This study seeks to understand the impacts of aging on the efficacy of amibegron to treat chronic RC tears. Young (4‐month‐old) and aged (33‐month‐old) C57BL/6 mice underwent a RC injury procedure with delayed repair (DR). Mice were equally randomized to receive amibegron or dimethyl sulfoxide (DMSO) treatments after repair. Functional ability was measured at baseline and 6‐weeks after DR. Wet muscle weight and histology of injured and contralateral supraspinatus were also analyzed 6‐weeks post‐DR. For in vitro histology and real‐time quantitative PCR experiments, FAPs were isolated from young and aged mice via fluorescence‐activated cell sorting. Young and aged FAPs were treated with amibegron or DMSO either immediately after seeding (early exposure) or 8‐days after seeding (late exposure). In vitro results showed that amibegron‐mediated FAP UCP‐1 expression decreases with age. In vivo data demonstrated that aged mice have a decreased responsiveness to amibegron and decreased propensity for intramuscular FAP UCP‐1 expression. Further, delayed amibegron treatment with RC repair did not lead to improvements in muscle atrophy and functional outcomes. Our findings demonstrate that age and the timing of interventions play a critical role in FAP‐targeted therapeutics for chronic injuries.