Mitochondrial targeting of recombinant RNAs modulates the level of a heteroplasmic mutation in human mitochondrial DNA associated with Kearns Sayre Syndrome

Mitochondrial targeting of recombinant RNAs modulates the level of a heteroplasmic mutation in human mitochondrial DNA associated with Kearns Sayre Syndrome

Mitochondrial mutations, an important cause of incurable human neuromuscular diseases, are mostly heteroplasmic: mutated mitochondrial DNA is present in cells simultaneously with wild-type genomes, the pathogenic threshold being generally >70% of mutant mtDNA. We studied whether heteroplasmy leve...

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Veröffentlicht in:Nucleic acids research 2013-01, Vol.41 (1), p.418-433
Hauptverfasser: Comte, Caroline, Tonin, Yann, Heckel-Mager, Anne-Marie, Boucheham, Abdeldjalil, Smirnov, Alexandre, Auré, Karine, Lombès, Anne, Martin, Robert P, Entelis, Nina, Tarassov, Ivan
Format: Artikel
Sprache:eng
Schlagworte:
Adolescent
Biochemistry, Molecular Biology
DNA Replication
DNA, Mitochondrial - biosynthesis
DNA, Mitochondrial - chemistry
Genetic Vectors - chemistry
Humans
Kearns-Sayre Syndrome - genetics
Life Sciences
Male
Mitochondria - metabolism
Mutation
Oligoribonucleotides - chemistry
Oligoribonucleotides - metabolism
RNA
RNA Transport
Transfection
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Zusammenfassung:Mitochondrial mutations, an important cause of incurable human neuromuscular diseases, are mostly heteroplasmic: mutated mitochondrial DNA is present in cells simultaneously with wild-type genomes, the pathogenic threshold being generally >70% of mutant mtDNA. We studied whether heteroplasmy level could be decreased by specifically designed oligoribonucleotides, targeted into mitochondria by the pathway delivering RNA molecules in vivo. Using mitochondrially imported RNAs as vectors, we demonstrated that oligoribonucleotides complementary to mutant mtDNA region can specifically reduce the proportion of mtDNA bearing a large deletion associated with the Kearns Sayre Syndrome in cultured transmitochondrial cybrid cells. These findings may be relevant to developing of a new tool for therapy of mtDNA associated diseases.
ISSN:0305-1048
1362-4962
DOI:10.1093/nar/gks965