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Premature ageing in mice expressing defective mitochondrial DNA polymerase

Author

Listed:
  • Aleksandra Trifunovic

    (Karolinska Institutet, Novum, Karolinska University Hospital
    Karolinska Institutet, Novum, Karolinska University Hospital)

  • Anna Wredenberg

    (Karolinska Institutet, Novum, Karolinska University Hospital
    Karolinska Institutet, Novum, Karolinska University Hospital)

  • Maria Falkenberg

    (Karolinska Institutet, Novum, Karolinska University Hospital)

  • Johannes N. Spelbrink

    (Institute of Medical Technology and Tampere University Hospital, University of Tampere)

  • Anja T. Rovio

    (Institute of Medical Technology and Tampere University Hospital, University of Tampere)

  • Carl E. Bruder

    (Astra Zeneca R&D)

  • Mohammad Bohlooly-Y

    (Astra Zeneca R&D)

  • Sebastian Gidlöf

    (Karolinska Institutet, Novum, Karolinska University Hospital
    Karolinska Institutet, Novum, Karolinska University Hospital)

  • Anders Oldfors

    (Sahlgrenska University Hospital)

  • Rolf Wibom

    (Karolinska Institutet, Karolinska University Hospital)

  • Jan Törnell

    (Astra Zeneca R&D)

  • Howard T. Jacobs

    (Institute of Medical Technology and Tampere University Hospital, University of Tampere)

  • Nils-Göran Larsson

    (Karolinska Institutet, Novum, Karolinska University Hospital
    Karolinska Institutet, Novum, Karolinska University Hospital)

Abstract

Point mutations and deletions of mitochondrial DNA (mtDNA) accumulate in a variety of tissues during ageing in humans1, monkeys2 and rodents3. These mutations are unevenly distributed and can accumulate clonally in certain cells, causing a mosaic pattern of respiratory chain deficiency in tissues such as heart4, skeletal muscle5 and brain6. In terms of the ageing process, their possible causative effects have been intensely debated because of their low abundance and purely correlative connection with ageing7,8. We have now addressed this question experimentally by creating homozygous knock-in mice that express a proof-reading-deficient version of PolgA, the nucleus-encoded catalytic subunit of mtDNA polymerase. Here we show that the knock-in mice develop an mtDNA mutator phenotype with a threefold to fivefold increase in the levels of point mutations, as well as increased amounts of deleted mtDNA. This increase in somatic mtDNA mutations is associated with reduced lifespan and premature onset of ageing-related phenotypes such as weight loss, reduced subcutaneous fat, alopecia (hair loss), kyphosis (curvature of the spine), osteoporosis, anaemia, reduced fertility and heart enlargement. Our results thus provide a causative link between mtDNA mutations and ageing phenotypes in mammals.

Suggested Citation

  • Aleksandra Trifunovic & Anna Wredenberg & Maria Falkenberg & Johannes N. Spelbrink & Anja T. Rovio & Carl E. Bruder & Mohammad Bohlooly-Y & Sebastian Gidlöf & Anders Oldfors & Rolf Wibom & Jan Törnell, 2004. "Premature ageing in mice expressing defective mitochondrial DNA polymerase," Nature, Nature, vol. 429(6990), pages 417-423, May.
  • Handle: RePEc:nat:nature:v:429:y:2004:i:6990:d:10.1038_nature02517
    DOI: 10.1038/nature02517
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    Citations

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    Cited by:

    1. Marc Thilo Figge & Andreas S Reichert & Michael Meyer-Hermann & Heinz D Osiewacz, 2012. "Deceleration of Fusion–Fission Cycles Improves Mitochondrial Quality Control during Aging," PLOS Computational Biology, Public Library of Science, vol. 8(6), pages 1-18, June.
    2. Chujiao Lin & Qiyuan Yang & Dongsheng Guo & Jun Xie & Yeon-Suk Yang & Sachin Chaugule & Ngoc DeSouza & Won-Taek Oh & Rui Li & Zhihao Chen & Aijaz A. John & Qiang Qiu & Lihua Julie Zhu & Matthew B. Gre, 2022. "Impaired mitochondrial oxidative metabolism in skeletal progenitor cells leads to musculoskeletal disintegration," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    3. Juan C. Landoni & Semin Erkul & Tuomas Laalo & Steffi Goffart & Riikka Kivelä & Karlo Skube & Anni I. Nieminen & Sara A. Wickström & James Stewart & Anu Suomalainen, 2024. "Overactive mitochondrial DNA replication disrupts perinatal cardiac maturation," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    4. Liang Yang & Zifeng Ruan & Xiaobing Lin & Hao Wang & Yanmin Xin & Haite Tang & Zhijuan Hu & Yunhao Zhou & Yi Wu & Junwei Wang & Dajiang Qin & Gang Lu & Kerry M. Loomes & Wai-Yee Chan & Xingguo Liu, 2024. "NAD+ dependent UPRmt activation underlies intestinal aging caused by mitochondrial DNA mutations," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    5. Gina Buchel & Ashok R. Nayak & Karl Herbine & Azadeh Sarfallah & Viktoriia O. Sokolova & Angelica Zamudio-Ochoa & Dmitry Temiakov, 2023. "Structural basis for DNA proofreading," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    6. Janne Purhonen & Rishi Banerjee & Vilma Wanne & Nina Sipari & Matthias Mörgelin & Vineta Fellman & Jukka Kallijärvi, 2023. "Mitochondrial complex III deficiency drives c-MYC overexpression and illicit cell cycle entry leading to senescence and segmental progeria," Nature Communications, Nature, vol. 14(1), pages 1-23, December.

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