Mitochondrial iron accumulation with age and functional consequences

Arnold Y. Seo, Jinze Xu, Stephane Servais, Tim Hofer, Emanuele Marzetti, Stephanie E. Wohlgemuth, Mitchell D. Knutson, Hae Young Chung, Christiaan Leeuwenburgh

Research output: Contribution to journalArticle

Abstract

During the aging process, an accumulation of non-heme iron disrupts cellular homeostasis and contributes to the mitochondrial dysfunction typical of various neuromuscular degenerative diseases. Few studies have investigated the effects of iron accumulation on mitochondrial integrity and function in skeletal muscle and liver tissue. Thus, we isolated liver mitochondria (LM), as well as quadriceps-derived subsarcolemmal mitochondria (SSM) and interfibrillar mitochondria (IFM), from male Fischer 344× Brown Norway rats at 8, 18, 29 and 37 months of age. Non-heme iron content in SSM, IFM and LM was significantly higher with age, reaching a maximum at 37 months of age. The mitochondrial permeability transition pore (mPTP) was more susceptible to the opening in aged mitochondria containing high levels of iron (i.e. SSM and LM) compared to IFM. Furthermore, mitochondrial.RNA oxidation increased significantly with age in SSM and LM, but not in IFM. Levels of mitochondrial RNA oxidation in SSM and LM correlated positively with levels of mitochondrial iron, whereas a significant negative correlation was observed between the maximum Ca2+ amounts needed to induce mPTP opening and iron contents in SSM, IFM and LM. Overall, our data suggest that age-dependent accumulation of mitochondrial iron may increase mitochondrial dysfunction and oxidative damage, thereby enhancing the susceptibility to apoptosis. © 2008 The Authors Journal compilation © 2008 Blackwell Publishing Ltd/The Anatomical Society of Great Britain and Ireland.
Original languageEnglish
Pages (from-to)706-716
Number of pages11
JournalAging Cell
Volume7
DOIs
Publication statusPublished - 2008

Keywords

  • Mitochondrial RNA
  • Mitochondrial aging
  • Mitochondrial iron homeostasis
  • Mitochondrial permeability transition pore
  • Oxidative stress
  • Skeletal muscle subsarcolemmal and interfibrillar mitochondria

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