Lipidomic Profiling Reveals an Age-Related Deficiency of Skeletal Muscle Proresolving Mediators that Contributes to Maladaptive Tissue Remodeling

Abstract

AbstractChronic inflammation and deregulated acute immune cell responses to injury contribute to age-associated skeletal muscle dysfunction. Specialized pro-resolving mediators (SPMs) control inflammation and support myofiber regeneration in young mice, but their role in aging muscle remains unknown. Here we examined the effect of age on the mediator lipidome of skeletal muscle via LC-MS based lipidomic profiling and tested whether systemic administration of the SPM resolvin D1 (RvD1) could limit excessive inflammation and improve the regenerative capacity of aged muscle. Aged mice displayed chronic low-grade muscle inflammation prior to injury and this was associated with a basal deficiency of lipoxygenase (LOX) derived SPMs as well as anti-inflammatory cytochrome P450 (CYP) derived lipid epoxides. Following muscle damage, young and aged mice produced similar amounts of pro-inflammatory cyclooxygenase (COX) and 12-LOX metabolites, but aged mice mounted a markedly deficient SPM response. This was associated with heightened leukocyte recruitment, impaired myofiber regeneration, and delayed recovery of strength. Systemic treatment with RvD1 had minimal impact on excessive myeloid cell infiltration and defective myofiber regeneration in aged mice. Nevertheless, RvD1 treatment did suppress inflammatory cytokines, modulated muscle stem cells, limited maladaptive tissue remodeling, and improved recovery of specific muscle force. We conclude that aging results in a marked deficiency of local SPM biosynthesis within muscle and that immunoresolvents may be attractive novel therapeutics for the treatment of muscular injuries and associated pain in the elderly, due to positive effects on recovery of muscle function without the negative side effects on myofiber regeneration of traditional anti-inflammatory treatments.