Abstract
Muscular dystrophies (MDs) comprise a group of degenerative muscle disorders characterized by progressive muscle wasting and often premature death. The primary defect common to most MDs involves disruption of the dystrophin-glycoprotein complex (DGC). This leads to sarcolemmal instability and Ca2+ influx, inducing cellular necrosis. Here we have shown that the dystrophic phenotype observed in δ-sarcoglycan–null (Sgcd–/–) mice and dystrophin mutant mdx mice is dramatically improved by skeletal muscle–specific overexpression of sarcoplasmic reticulum Ca2+ ATPase 1 (SERCA1). Rates of myofiber central nucleation, tissue fibrosis, and serum creatine kinase levels were dramatically reduced in Sgcd–/– and mdx mice with the SERCA1 transgene, which also rescued the loss of exercise capacity in Sgcd–/– mice. Adeno-associated virus–SERCA2a (AAV-SERCA2a) gene therapy in the gastrocnemius muscle of Sgcd–/– mice mitigated dystrophic disease. SERCA1 overexpression reversed a defect in sarcoplasmic reticulum Ca2+ reuptake that characterizes dystrophic myofibers and reduced total cytosolic Ca2+. Further, SERCA1 overexpression almost completely rescued the dystrophic phenotype in a mouse model of MD driven solely by Ca2+ influx. Mitochondria isolated from the muscle of SERCA1-Sgcd–/– mice were no longer swollen and calpain activation was reduced, suggesting protection from Ca2+-driven necrosis. Our results suggest a novel therapeutic approach using SERCA1 to abrogate the altered intracellular Ca2+ levels that underlie most forms of MD.
Authors
Sanjeewa A. Goonasekera, Chi K. Lam, Douglas P. Millay, Michelle A. Sargent, Roger J. Hajjar, Evangelia G. Kranias, Jeffery D. Molkentin
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ISSN: 0021-9738 (print), 1558-8238 (online)