Muscle-specific Ryanodine receptor 1 properties underlie limb-girdle muscular dystrophy 2B/R2 progression.

Abstract

Ryanodine receptor 1 Caleak is a signal in skeletal muscle, but chronic leak can underlie pathology. Here we show that in healthy male mouse, limb-girdle muscle presents higher sympathetic input, elevated ryanodine receptor 1 basal phosphorylation, Caleak and mitochondrial Cacontent compared to distal leg muscles. These regional differences are consistent with heat generation in resting muscle to maintain core temperature. The dysferlin-null mouse develops severe pathology in the limb-girdle but not leg muscles. Absence of dysferlin disrupts dihydropyridine receptors' inhibitory control over ryanodine receptor 1 leak, synergistically increasing leak through the already phosphorylated channel of limb-girdle muscle. This alters Cahandling and distribution leading to reactive oxygen species production prior to disease onset. With age, oxidation of Ca-handling proteins in dysferlin-null limb-girdle muscle alters basal Camovements. Our results show that muscle-specific pathology in dysferlin-null mice is linked to increased ryanodine receptor 1 Caleak.