By-passing the nonsense mutation in the 4<sup>CV</sup> mouse model of muscular dystrophy by induced exon skipping
Background: Duchenne muscular dystrophy (DMD), a severe neuromuscular disorder, is caused by protein-truncating mutations in the dystrophin gene. Absence of functional dystrophin renders muscle fibres more vulnerable to damage and necrosis. We report antisense oligomer (AO) induced exon skipping in...
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th-mahidol.272122018-09-13T14:12:35Z By-passing the nonsense mutation in the 4<sup>CV</sup> mouse model of muscular dystrophy by induced exon skipping Chalermchai Mitrpant Sue Fletcher Patrick L. Iversen Steve D. Wilton University of Western Australia Mahidol University AVI BioPharma Incorporated Biochemistry, Genetics and Molecular Biology Medicine Pharmacology, Toxicology and Pharmaceutics Background: Duchenne muscular dystrophy (DMD), a severe neuromuscular disorder, is caused by protein-truncating mutations in the dystrophin gene. Absence of functional dystrophin renders muscle fibres more vulnerable to damage and necrosis. We report antisense oligomer (AO) induced exon skipping in the B6Ros.Cg-Dmdmdx-4Cv/J (4CV) mouse, a muscular dystrophy model arising from a nonsense mutation in dystrophin exon 53. Both exons 52 and 53 must be excised to remove the mutation and maintain the reading frame. Methods: A series of 2′-O-methyl modified oligomers on a phosphorothioate backbone (2OMeAOs) were designed and evaluated for the removal of each exon, and the most effective compounds were then combined to induce dual exon skipping in both myoblast cultures and in vivo. Exon skipping efficiency of 2OMeAOs and phosphorodiamidate morpholino oligomers (PMOs) was evaluated both in vitro and in vivo at the RNA and protein levels. Results: Compared to the original mdx mouse studies, induction of exon skipping from the 4CV dystrophin mRNA was far more challenging. PMO cocktails could restore synthesis of near-full length dystrophin protein in cultured 4CV myogenic cells and in vivo, after a single intramuscular injection. Conclusions: By-passing the protein-truncating mutation in the 4CV mouse model of muscular dystrophy could not be achieved with single oligomers targeting both exons and was only achieved after the application of AO cocktails to remove exons 52 and 53. As in previous studies, the stability and efficiency of PMOs proved superior to 2OMeAOs for consistent and sustained protein induction in vivo. Copyright © 2008 John Wiley & Sons, Ltd. 2018-09-13T06:24:17Z 2018-09-13T06:24:17Z 2009-06-01 Article Journal of Gene Medicine. Vol.11, No.1 (2009), 46-56 10.1002/jgm.1265 15212254 1099498X 2-s2.0-59449107366 https://repository.li.mahidol.ac.th/handle/123456789/27212 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=59449107366&origin=inward |
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Biochemistry, Genetics and Molecular Biology Medicine Pharmacology, Toxicology and Pharmaceutics Chalermchai Mitrpant Sue Fletcher Patrick L. Iversen Steve D. Wilton By-passing the nonsense mutation in the 4<sup>CV</sup> mouse model of muscular dystrophy by induced exon skipping |
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Background: Duchenne muscular dystrophy (DMD), a severe neuromuscular disorder, is caused by protein-truncating mutations in the dystrophin gene. Absence of functional dystrophin renders muscle fibres more vulnerable to damage and necrosis. We report antisense oligomer (AO) induced exon skipping in the B6Ros.Cg-Dmdmdx-4Cv/J (4CV) mouse, a muscular dystrophy model arising from a nonsense mutation in dystrophin exon 53. Both exons 52 and 53 must be excised to remove the mutation and maintain the reading frame. Methods: A series of 2′-O-methyl modified oligomers on a phosphorothioate backbone (2OMeAOs) were designed and evaluated for the removal of each exon, and the most effective compounds were then combined to induce dual exon skipping in both myoblast cultures and in vivo. Exon skipping efficiency of 2OMeAOs and phosphorodiamidate morpholino oligomers (PMOs) was evaluated both in vitro and in vivo at the RNA and protein levels. Results: Compared to the original mdx mouse studies, induction of exon skipping from the 4CV dystrophin mRNA was far more challenging. PMO cocktails could restore synthesis of near-full length dystrophin protein in cultured 4CV myogenic cells and in vivo, after a single intramuscular injection. Conclusions: By-passing the protein-truncating mutation in the 4CV mouse model of muscular dystrophy could not be achieved with single oligomers targeting both exons and was only achieved after the application of AO cocktails to remove exons 52 and 53. As in previous studies, the stability and efficiency of PMOs proved superior to 2OMeAOs for consistent and sustained protein induction in vivo. Copyright © 2008 John Wiley & Sons, Ltd. |
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University of Western Australia |
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University of Western Australia Chalermchai Mitrpant Sue Fletcher Patrick L. Iversen Steve D. Wilton |
| format |
Article |
| author |
Chalermchai Mitrpant Sue Fletcher Patrick L. Iversen Steve D. Wilton |
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Chalermchai Mitrpant |
| title |
By-passing the nonsense mutation in the 4<sup>CV</sup> mouse model of muscular dystrophy by induced exon skipping |
| title_short |
By-passing the nonsense mutation in the 4<sup>CV</sup> mouse model of muscular dystrophy by induced exon skipping |
| title_full |
By-passing the nonsense mutation in the 4<sup>CV</sup> mouse model of muscular dystrophy by induced exon skipping |
| title_fullStr |
By-passing the nonsense mutation in the 4<sup>CV</sup> mouse model of muscular dystrophy by induced exon skipping |
| title_full_unstemmed |
By-passing the nonsense mutation in the 4<sup>CV</sup> mouse model of muscular dystrophy by induced exon skipping |
| title_sort |
by-passing the nonsense mutation in the 4<sup>cv</sup> mouse model of muscular dystrophy by induced exon skipping |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/27212 |
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1763489396936409088 |