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Gene therapy of mdx mice with large truncated dystrophins generated by recombination using rAAV6.


ABSTRACT: Recombinant adeno-associated viral (rAAV) vector-mediated gene transfer represents a promising approach for many diseases. However, the applicability of rAAV vectors has long been hindered by the small (~4.8 kb) DNA packaging capacity. This limitation can hamper the packaging and delivery of critical regulatory elements and/or larger coding sequences, such as the ~14-kb dystrophin complementary DNA (cDNA) that is of interest for gene therapy of Duchenne muscular dystrophy (DMD). Here, we have demonstrated reconstitution of an expression cassette (7.3 kb) encoding a highly functional "minidystrophin" protein (?H2-R19, 222 kd) in vivo following intravascular co-delivery of two independent rAAV6 vectors sharing a central homologous recombinogenic region of 372 nucleotides. Similar to previously reported trans-splicing approaches, one rAAV vector provides the promoter with the ~1/2 initial portion of minidystrophin, while the second vector provides the remaining minidystrophin cDNA followed by the polyadenylation signal. Significantly, administering a modest dose [2 × 10(12) vector genomes (vg)] of the two minidystrophin-encoding rAAV vectors to dystrophic mice elicited an improvement of physiological performance indicative of prevention or amelioration of the disease state. These studies provide evidence that functional dystrophin transgenes larger than that typically carried by a single rAAV genome can be reconstituted in vivo by homologous recombination (HR) following intravascular co-delivery with rAAV6.

SUBMITTER: Odom GL 

PROVIDER: S-EPMC3017440 | biostudies-literature | 2011 Jan

REPOSITORIES: biostudies-literature

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Gene therapy of mdx mice with large truncated dystrophins generated by recombination using rAAV6.

Odom Guy L GL   Gregorevic Paul P   Allen James M JM   Chamberlain Jeffrey S JS  

Molecular therapy : the journal of the American Society of Gene Therapy 20100921 1


Recombinant adeno-associated viral (rAAV) vector-mediated gene transfer represents a promising approach for many diseases. However, the applicability of rAAV vectors has long been hindered by the small (~4.8 kb) DNA packaging capacity. This limitation can hamper the packaging and delivery of critical regulatory elements and/or larger coding sequences, such as the ~14-kb dystrophin complementary DNA (cDNA) that is of interest for gene therapy of Duchenne muscular dystrophy (DMD). Here, we have de  ...[more]

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