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Defective mitochondrial DNA homeostasis in the substantia nigra in Parkinson disease

Author

Listed:
  • Christian Dölle

    (Haukeland University Hospital
    University of Bergen)

  • Irene Flønes

    (Haukeland University Hospital
    University of Bergen)

  • Gonzalo S. Nido

    (Haukeland University Hospital
    University of Bergen)

  • Hrvoje Miletic

    (Haukeland University Hospital
    University of Bergen)

  • Nelson Osuagwu

    (Haukeland University Hospital
    University of Bergen)

  • Stine Kristoffersen

    (Haukeland University Hospital
    Gade Laboratory for Pathology, Haukeland University Hospital and University of Bergen)

  • Peer K. Lilleng

    (Haukeland University Hospital
    Gade Laboratory for Pathology, Haukeland University Hospital and University of Bergen)

  • Jan Petter Larsen

    (Network for Medical Sciences, University of Stavanger)

  • Ole-Bjørn Tysnes

    (Haukeland University Hospital
    University of Bergen)

  • Kristoffer Haugarvoll

    (Haukeland University Hospital
    University of Bergen)

  • Laurence A. Bindoff

    (Haukeland University Hospital
    University of Bergen)

  • Charalampos Tzoulis

    (Haukeland University Hospital
    University of Bergen)

Abstract

Increased somatic mitochondrial DNA (mtDNA) mutagenesis causes premature aging in mice, and mtDNA damage accumulates in the human brain with aging and neurodegenerative disorders such as Parkinson disease (PD). Here, we study the complete spectrum of mtDNA changes, including deletions, copy-number variation and point mutations, in single neurons from the dopaminergic substantia nigra and other brain areas of individuals with Parkinson disease and neurologically healthy controls. We show that in dopaminergic substantia nigra neurons of healthy individuals, mtDNA copy number increases with age, maintaining the pool of wild-type mtDNA population in spite of accumulating deletions. This upregulation fails to occur in individuals with Parkinson disease, however, resulting in depletion of the wild-type mtDNA population. By contrast, neuronal mtDNA point mutational load is not increased in Parkinson disease. Our findings suggest that dysregulation of mtDNA homeostasis is a key process in the pathogenesis of neuronal loss in Parkinson disease.

Suggested Citation

  • Christian Dölle & Irene Flønes & Gonzalo S. Nido & Hrvoje Miletic & Nelson Osuagwu & Stine Kristoffersen & Peer K. Lilleng & Jan Petter Larsen & Ole-Bjørn Tysnes & Kristoffer Haugarvoll & Laurence A. , 2016. "Defective mitochondrial DNA homeostasis in the substantia nigra in Parkinson disease," Nature Communications, Nature, vol. 7(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13548
    DOI: 10.1038/ncomms13548
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    Cited by:

    1. Ayesha Sen & Sebastian Kallabis & Felix Gaedke & Christian Jüngst & Julia Boix & Julian Nüchel & Kanjanamas Maliphol & Julia Hofmann & Astrid C. Schauss & Marcus Krüger & Rudolf J. Wiesner & David Pla, 2022. "Mitochondrial membrane proteins and VPS35 orchestrate selective removal of mtDNA," Nature Communications, Nature, vol. 13(1), pages 1-20, December.

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