In vivo muscle gene transfer of full-length dystrophin with an adenoviral vector that lacks all viral genes - PubMed (original) (raw)
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- PMID: 8940636
In vivo muscle gene transfer of full-length dystrophin with an adenoviral vector that lacks all viral genes
P R Clemens et al. Gene Ther. 1996 Nov.
Abstract
Duchenne muscular dystrophy (DMD) is an important target for gene transfer because of the disease's high frequency and devastating course. To date, adenoviral vector-mediated gene transfer for DMD has been unavailable because (1) adenoviral vectors were unable to accommodate the full-length dystrophin cDNA (14 kb); and (2) adenoviral vectors induced inflammatory reactions in the gene transfer recipient. We addressed both problems with a novel adenoviral vector that contains no viral genes and encodes 28.2 kb of foreign DNA including both the full-length dystrophin cDNA with the muscle creatine kinase promoter for transcriptional control and a lacZ marker gene. This report presents the in vivo expression of dystrophin and beta-galactosidase from this vector in skeletal muscle of the mdx mouse, a mutant mouse that lacks dystrophin. Somatic delivery of the vector by intramuscular injection in 6-day-old mice resulted in the expression of full-length, recombinant dystrophin at the muscle membrane. Dystrophin-associated proteins were restored in muscle fibers expressing recombinant dystrophin. Mdx muscle injected with our vector showed a decrease in the proportion of fibers with nuclei located centrally; centrally placed nuclei in muscle fibers are characteristic of cycles of degeneration and regeneration suffered by dystrophin-deficient muscle tissue. These results are strong evidence that adenoviral vector-mediated full-length dystrophin delivery provides substantial somatic function.
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