Literature DB >> 32073748

Mitochondrial DNA heteroplasmy in disease and targeted nuclease-based therapeutic approaches.

Nadee Nissanka1, Carlos T Moraes1.   

Abstract

Mitochondrial DNA (mtDNA) encodes a subset of the genes which are responsible for oxidative phosphorylation. Pathogenic mutations in the human mtDNA are often heteroplasmic, where wild-type mtDNA species co-exist with the pathogenic mtDNA and a bioenergetic defect is only seen when the pathogenic mtDNA percentage surpasses a threshold for biochemical manifestations. mtDNA segregation during germline development can explain some of the extreme variation in heteroplasmy from one generation to the next. Patients with high heteroplasmy for deleterious mtDNA species will likely suffer from bona-fide mitochondrial diseases, which currently have no cure. Shifting mtDNA heteroplasmy toward the wild-type mtDNA species could provide a therapeutic option to patients. Mitochondrially targeted engineered nucleases, such as mitoTALENs and mitoZFNs, have been used in vitro in human cells harboring pathogenic patient-derived mtDNA mutations and more recently in vivo in a mouse model of a pathogenic mtDNA point mutation. These gene therapy tools for shifting mtDNA heteroplasmy can also be used in conjunction with other therapies aimed at eliminating and/or preventing the transfer of pathogenic mtDNA from mother to child.
© 2020 The Authors.

Entities:  

Keywords:  gene editing; heteroplasmy; mitochondrial DNA

Mesh:

Substances:

Year:  2020        PMID: 32073748      PMCID: PMC7054667          DOI: 10.15252/embr.201949612

Source DB:  PubMed          Journal:  EMBO Rep        ISSN: 1469-221X            Impact factor:   8.807


  119 in total

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2.  Modulating mtDNA heteroplasmy by mitochondria-targeted restriction endonucleases in a 'differential multiple cleavage-site' model.

Authors:  S R Bacman; S L Williams; D Hernandez; C T Moraes
Journal:  Gene Ther       Date:  2007-06-28       Impact factor: 5.250

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4.  Evidence of ROS generation by mitochondria in cells with impaired electron transport chain and mitochondrial DNA damage.

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Journal:  Mitochondrion       Date:  2006-12-13       Impact factor: 4.160

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Review 6.  Leber hereditary optic neuropathy: current perspectives.

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7.  High levels of mitochondrial DNA deletions in substantia nigra neurons in aging and Parkinson disease.

Authors:  Andreas Bender; Kim J Krishnan; Christopher M Morris; Geoffrey A Taylor; Amy K Reeve; Robert H Perry; Evelyn Jaros; Joshua S Hersheson; Joanne Betts; Thomas Klopstock; Robert W Taylor; Douglass M Turnbull
Journal:  Nat Genet       Date:  2006-04-09       Impact factor: 38.330

8.  The m.3243A>G mitochondrial DNA mutation and related phenotypes. A matter of gender?

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Journal:  J Neurol       Date:  2013-12-29       Impact factor: 4.849

9.  Specific elimination of mutant mitochondrial genomes in patient-derived cells by mitoTALENs.

Authors:  Sandra R Bacman; Siôn L Williams; Milena Pinto; Susana Peralta; Carlos T Moraes
Journal:  Nat Med       Date:  2013-08-04       Impact factor: 53.440

10.  A Phenotype-Driven Approach to Generate Mouse Models with Pathogenic mtDNA Mutations Causing Mitochondrial Disease.

Authors:  Johanna H K Kauppila; Holly L Baines; Ana Bratic; Marie-Lune Simard; Christoph Freyer; Arnaud Mourier; Craig Stamp; Roberta Filograna; Nils-Göran Larsson; Laura C Greaves; James B Stewart
Journal:  Cell Rep       Date:  2016-09-13       Impact factor: 9.423
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  23 in total

Review 1.  Mitochondrial DNA heteroplasmy in disease and targeted nuclease-based therapeutic approaches.

Authors:  Nadee Nissanka; Carlos T Moraes
Journal:  EMBO Rep       Date:  2020-02-19       Impact factor: 8.807

Review 2.  Visualizing, quantifying and manipulating mitochondrial DNA in vivo.

Authors:  David L Prole; Patrick F Chinnery; Nick S Jones
Journal:  J Biol Chem       Date:  2020-10-15       Impact factor: 5.157

Review 3.  Mitochondrial DNA damage as driver of cellular outcomes.

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4.  Modulating Mitochondrial DNA Heteroplasmy with Mitochondrially Targeted Endonucleases.

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Review 5.  Mitochondrial genome engineering coming-of-age.

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6.  Sensitive quantification of m.3243A>G mutational proportion in non-retinal tissues and its relationship with visual symptoms.

Authors:  Nathaniel K Mullin; Kristin R Anfinson; Megan J Riker; Kelsey L Wieland; Nicole J Tatro; Todd E Scheetz; Robert F Mullins; Edwin M Stone; Budd A Tucker
Journal:  Hum Mol Genet       Date:  2022-03-03       Impact factor: 5.121

Review 7.  Mitochondrial DNA copy number in human disease: the more the better?

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Review 8.  Inheritance through the cytoplasm.

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Review 9.  Mitochondrial Fusion, Fission, and Mitophagy in Cardiac Diseases: Challenges and Therapeutic Opportunities.

Authors:  Débora da Luz Scheffer; Adriana Ann Garcia; Lucia Lee; Daria Mochly-Rosen; Julio Cesar Batista Ferreira
Journal:  Antioxid Redox Signal       Date:  2022-04-18       Impact factor: 7.468

10.  Pathogenic Heteroplasmic Somatic Mitochondrial DNA Mutation Confers Platinum-Resistance and Recurrence of High-Grade Serous Ovarian Cancer.

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Journal:  Cancer Manag Res       Date:  2020-11-02       Impact factor: 3.989
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