Duchenne muscular dystrophy (DMD) is a hereditary disease caused by mutations that disrupt the dystrophin mRNA reading frame. In some cases, forced exclusion (skipping) of a single exon can restore the reading frame, giving rise to a shorter, but still functional, protein. In this study, we constructed lentiviral vectors expressing antisense oligonucleotides in order to induce an efficient exon skipping and to correct the initial frameshift caused by the DMD deletion of CD133+ stem cells. The intramuscular and intra-arterial delivery of genetically corrected CD133 expressing myogenic progenitors isolated from the blood and muscle of DMD patients results in a significant recovery of muscle morphology, function, and dystrophin expression in scid/mdx mice. These data demonstrate that autologous engrafting of blood or muscle-derived CD133+ cells, previously genetically modified to reexpress a functional dystrophin, represents a promising approach for DMD.
Restoration of human dystrophin following transplantation of exon-skipping-engineered DMD patient stem cells into dystrophic mice / R. Benchaouir, .A. Meregalli, . Farini, .G. D'Antona, .L.C. Belicchi, .A. Goyenvalle, .M. Battistelli, . Bresolin, .R. Bottinelli, .L. Garcia, Y. Torrente. - In: CELL STEM CELL. - ISSN 1934-5909. - 1:6(2007), pp. 646-657. [10.1016/j.stem.2007.09.016]
Restoration of human dystrophin following transplantation of exon-skipping-engineered DMD patient stem cells into dystrophic mice
.A. MeregalliSecondo
; . Farini; .L.C. Belicchi; . Bresolin;Y. TorrenteUltimo
2007
Abstract
Duchenne muscular dystrophy (DMD) is a hereditary disease caused by mutations that disrupt the dystrophin mRNA reading frame. In some cases, forced exclusion (skipping) of a single exon can restore the reading frame, giving rise to a shorter, but still functional, protein. In this study, we constructed lentiviral vectors expressing antisense oligonucleotides in order to induce an efficient exon skipping and to correct the initial frameshift caused by the DMD deletion of CD133+ stem cells. The intramuscular and intra-arterial delivery of genetically corrected CD133 expressing myogenic progenitors isolated from the blood and muscle of DMD patients results in a significant recovery of muscle morphology, function, and dystrophin expression in scid/mdx mice. These data demonstrate that autologous engrafting of blood or muscle-derived CD133+ cells, previously genetically modified to reexpress a functional dystrophin, represents a promising approach for DMD.
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