2010
DOI: 10.1089/hum.2010.024
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Electrotransfer of the Full-Length Dog Dystrophin into Mouse and Dystrophic Dog Muscles

Abstract: Duchenne muscular dystrophy (DMD) is an X-linked genetic disease characterized by the absence of dystrophin (427 kDa). An approach to eventually restore this protein in patients with DMD is to introduce into their muscles a plasmid encoding dystrophin cDNA. Because the phenotype of the dystrophic dog is closer to the human phenotype than is the mdx mouse phenotype, we have studied the electrotransfer of a plasmid carrying the full-length dog dystrophin (FLDYS(dog)) in dystrophic dog muscle. To achieve this non… Show more

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Cited by 17 publications
(10 citation statements)
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“…155,156 Dog FLDYS was also introduced with success in dystrophic dog muscle. 157 In this case, a specific immune response was observed in the treated dog muscle. Further studies are thus required to determine whether this immune response was against dystrophin or against the product of another transgene also present in the plasmid.…”
Section: Physical Approachmentioning
confidence: 62%
“…155,156 Dog FLDYS was also introduced with success in dystrophic dog muscle. 157 In this case, a specific immune response was observed in the treated dog muscle. Further studies are thus required to determine whether this immune response was against dystrophin or against the product of another transgene also present in the plasmid.…”
Section: Physical Approachmentioning
confidence: 62%
“…Hence, the primary goal of DMD gene therapy is to restore dystrophin expression. Many approaches have been tried, including gene replacement with plasmid (e.g., Myodys), advenovirus, and AAV vectors, gene repair with CRISPR editing, and exon-skipping with antisense oligonucleotides (188)(189)(190)(191)(192)(193).…”
Section: Therapeutic Testing In the Canine Model And Impact On Patienmentioning
confidence: 99%
“…[50][51][52] Limited expression and immune cell infiltration were observed following electrotransfer of canine dystrophin plasmids to GRMD muscle. 53,54 Adenovirus is the first viral vector used for delivering dystrophin to the canine muscle. Since the first-generation adenoviral vector has a packaging capacity of 8.2 kb, 55 investigators used a 6.2 kb, minimized dystrophin gene called the D17-48 minigene.…”
Section: Dystrophin Replacement Therapy In the Cdmd Modelmentioning
confidence: 99%