Literature DB >> 16179392

Rapid directional shift of mitochondrial DNA heteroplasmy in animal tissues by a mitochondrially targeted restriction endonuclease.

Maria Pilar Bayona-Bafaluy1, Bas Blits, Brendan J Battersby, Eric A Shoubridge, Carlos T Moraes.   

Abstract

Frequently, mtDNA with pathogenic mutations coexist with wild-type genomes (mtDNA heteroplasmy). Mitochondrial dysfunction and disease ensue only when the proportion of mutated mtDNAs is high, thus a reduction in this proportion should provide an effective therapy for these disorders. We developed a system to decrease specific mtDNA haplotypes by expressing a mitochondrially targeted restriction endonuclease, ApaLI, in cells of heteroplasmic mice. These mice have two mtDNA haplotypes, of which only one contains an ApaLI site. After transfection of cultured hepatocytes with mitochondrially targeted ApaLI, we found a rapid, directional, and complete shift in mtDNA heteroplasmy (2-6 h). We tested the efficacy of this approach in vivo, by using recombinant viral vectors expressing the mitochondrially targeted ApaLI. We observed a significant shift in mtDNA heteroplasmy in muscle and brain transduced with recombinant viruses. This strategy could prevent disease onset or reverse clinical symptoms in patients harboring certain heteroplasmic pathogenic mutations in mtDNA.

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Year:  2005        PMID: 16179392      PMCID: PMC1242285          DOI: 10.1073/pnas.0502896102

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  33 in total

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Journal:  Nat Genet       Date:  1997-05       Impact factor: 38.330

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Authors:  T Taivassalo; K Fu; T Johns; D Arnold; G Karpati; E A Shoubridge
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6.  Selective inhibition of mutant human mitochondrial DNA replication in vitro by peptide nucleic acids.

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7.  Organization and dynamics of human mitochondrial DNA.

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  58 in total

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Review 9.  Mitochondrial Diseases Part III: Therapeutic interventions in mouse models of OXPHOS deficiencies.

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10.  Intra- and inter-molecular recombination of mitochondrial DNA after in vivo induction of multiple double-strand breaks.

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