Abstract
Mutations in the myotubularin gene (MTM1) result in X-linked myotubular myopathy (XLMTM), a fatal pediatric disease of skeletal muscle characterized by small myofibers with frequent central nuclei and abnormal mitochondrial accumulations. Patients with XLMTM typically present with severe hypotonia, muscle weakness and respiratory failure. Previous local studies in Mtm1-mutant mice demonstrated potential efficacy of gene therapy to treat the disease. Here we report long-term survival data in mice and dogs following intravenous delivery of an adeno-associated virus serotype 8 (AAV8) vector expressing myotubularin under the muscle-specific desmin promoter. XLMTM dogs (<i>n</i>=3) were treated at 8weeks of age with full-length canine MTM1 cDNA using an AAV8 vector. Affected XLMTM dogs were infused with AAV8–MTM1 (2.5×10 13 vg/kg), IV under high pressure into the saphenous vein while a tourniquet was applied around the upper thigh. While AAV8–MTM1 was administered by hindlimb infusion, effects were observed systemically in dogs. Mice were given intravenous AAV8–MTM1 by tail vein injection. In both murine and canine models, myotubularin transgene was expressed in all limb muscles and this translated into marked improvement of contractile force in mice and dogs. All mutant mice, including those injected at a late stage of the disease, survived until the end of the 6-month study. The lifespan of MTM1 mutant dogs that normally survive to 4months was prolonged beyond 1year in the first of three treated animals. Two additional treated dogs remain robust and continue to thrive beyond 8months-of-age. Our findings in these two species provide proof-of-principle that intravenous AAV-mediated myotubularin replacement can rescue the severe phenotype of both small and large animal models of myotubular myopathy.
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