Dystrophin Delivery to Muscles of mdx Mice Using Lentiviral Vectors Leads to Myogenic Progenitor Targeting and Stable Gene Expression

Abstract

To explore whether stable transduction of myogenic stem cells using lentiviral vectors could be of benefit for treating dystrophic muscles, we generated vectors expressing a functional microdystrophin/enhanced green fluorescence protein fusion (microDys/eGFP) gene. Lentiviral vector injection into neonatal mdx(4cv) muscles resulted in widespread and stable expression of dystrophin for at least 2 years. This expression resulted in a significant amelioration of muscle pathophysiology as assessed by a variety of histological and functional assays. To assess whether this long-term expression was accompanied by stable transduction of satellite cells, we harvested muscle mononuclear cells 1 year after vector injection. Up to 20% of the cultured myoblast colonies expressed the microDys/eGFP transgene following myotube formation. Furthermore, transplantation of the muscle mononuclear cells into secondary mdx(4cv) recipients showed their ability to regenerate dystrophin-expressing myofibers in vivo. The ability to isolate myogenic cells able to form dystrophin-positive myotubes or myofibers in vitro and in vivo >1 year postinjection indicates that the vectors stably transduced muscle satellite cells, or a progenitor of such cells, in neonatal mdx(4cv) muscles. These studies suggest that integrating lentiviral vectors have potential utility for gene therapy of muscular dystrophy.