Literature DB >> 27919073

Mitochondrial replacement in human oocytes carrying pathogenic mitochondrial DNA mutations.

Eunju Kang1,2, Jun Wu3, Nuria Marti Gutierrez1,2, Amy Koski1,2, Rebecca Tippner-Hedges1,2, Karen Agaronyan4, Aida Platero-Luengo3, Paloma Martinez-Redondo3, Hong Ma1,2, Yeonmi Lee1,2, Tomonari Hayama1,2, Crystal Van Dyken1,2, Xinjian Wang5, Shiyu Luo5, Riffat Ahmed1,2, Ying Li1,2, Dongmei Ji1,6, Refik Kayali7, Cengiz Cinnioglu7, Susan Olson8, Jeffrey Jensen9, David Battaglia9, David Lee9, Diana Wu9, Taosheng Huang5, Don P Wolf1,2, Dmitry Temiakov4, Juan Carlos Izpisua Belmonte3, Paula Amato9, Shoukhrat Mitalipov1,2,9,10,11.   

Abstract

Maternally inherited mitochondrial (mt)DNA mutations can cause fatal or severely debilitating syndromes in children, with disease severity dependent on the specific gene mutation and the ratio of mutant to wild-type mtDNA (heteroplasmy) in each cell and tissue. Pathogenic mtDNA mutations are relatively common, with an estimated 778 affected children born each year in the United States. Mitochondrial replacement therapies or techniques (MRT) circumventing mother-to-child mtDNA disease transmission involve replacement of oocyte maternal mtDNA. Here we report MRT outcomes in several families with common mtDNA syndromes. The mother's oocytes were of normal quality and mutation levels correlated with those in existing children. Efficient replacement of oocyte mutant mtDNA was performed by spindle transfer, resulting in embryos containing >99% donor mtDNA. Donor mtDNA was stably maintained in embryonic stem cells (ES cells) derived from most embryos. However, some ES cell lines demonstrated gradual loss of donor mtDNA and reversal to the maternal haplotype. In evaluating donor-to-maternal mtDNA interactions, it seems that compatibility relates to mtDNA replication efficiency rather than to mismatch or oxidative phosphorylation dysfunction. We identify a polymorphism within the conserved sequence box II region of the D-loop as a plausible cause of preferential replication of specific mtDNA haplotypes. In addition, some haplotypes confer proliferative and growth advantages to cells. Hence, we propose a matching paradigm for selecting compatible donor mtDNA for MRT.

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Year:  2016        PMID: 27919073     DOI: 10.1038/nature20592

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  34 in total

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Journal:  Nature       Date:  2012-12-19       Impact factor: 49.962

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Journal:  Nature       Date:  2012-10-24       Impact factor: 49.962
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  85 in total

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Review 3.  Selfish Mitonuclear Conflict.

Authors:  Justin C Havird; Evan S Forsythe; Alissa M Williams; John H Werren; Damian K Dowling; Daniel B Sloan
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4.  Easing US restrictions on mitochondrial replacement therapy would protect research interests but grease the slippery slope.

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5.  Biomedicine: Replacing the cell's power plants.

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7.  The Mitochondrial DNA Polymerase Promotes Elimination of Paternal Mitochondrial Genomes.

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8.  ZSCAN10 expression corrects the genomic instability of iPSCs from aged donors.

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Journal:  Nat Cell Biol       Date:  2017-08-28       Impact factor: 28.824

Review 9.  Therapeutic Approaches to Treat Mitochondrial Diseases: "One-Size-Fits-All" and "Precision Medicine" Strategies.

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10.  Assisted reproductive technologies to prevent human mitochondrial disease transmission.

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