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Generation of somatic mitochondrial DNA-replaced cells for mitochondrial dysfunction treatment

Hideki Maeda, Daisuke Kami, Ryotaro Maeda, Akira Shikuma, Satoshi Gojo

2021Scientific Reports15 citationsDOIOpen Access PDF

Abstract

Mitochondrial diseases currently have no cure regardless of whether the cause is a nuclear or mitochondrial genome mutation. Mitochondrial dysfunction notably affects a wide range of disorders in aged individuals, including neurodegenerative diseases, cancers, and even senescence. Here, we present a procedure to generate mitochondrial DNA-replaced somatic cells with a combination of a temporal reduction in endogenous mitochondrial DNA and coincubation with exogeneous isolated mitochondria. Heteroplasmy in mitochondrial disease patient-derived fibroblasts in which the mutant genotype was dominant over the wild-type genotype was reversed. Mitochondrial disease patient-derived fibroblasts regained respiratory function and showed lifespan extension. Mitochondrial membranous components were utilized as a vehicle to deliver the genetic materials into endogenous mitochondria-like horizontal genetic transfer in prokaryotes. Mitochondrial DNA-replaced cells could be a resource for transplantation to treat maternal inherited mitochondrial diseases.

Topics & Concepts

HeteroplasmyMitochondrial DNAMitochondrial diseaseMitochondrionBiologySomatic cellHuman mitochondrial geneticsGenotypeMutationGeneticsNuclear DNAGeneMitochondrial Function and PathologyMetabolism and Genetic DisordersPluripotent Stem Cells Research
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