Literature DB >> 19840931

Mitochondrial DNA damage initiates a cell cycle arrest by a Chk2-associated mechanism in mammalian cells.

Christopher A Koczor1, Inna N Shokolenko1, Amy K Boyd1, Shawn P Balk1, Glenn L Wilson1, Susan P LeDoux2.   

Abstract

Previous work from our laboratory has focused on mitochondrial DNA (mtDNA) repair and cellular viability. However, other events occur prior to the initiation of apoptosis in cells. Because of the importance of mtDNA in ATP production and of ATP in fuel cell cycle progression, we asked whether mtDNA damage was an upstream signal leading to cell cycle arrest. Using quantitative alkaline Southern blot technology, we found that exposure to menadione produced detectable mtDNA damage in HeLa cells that correlated with an S phase cell cycle arrest. To determine whether mtDNA damage was causatively linked to the observed cell cycle arrest, experiments were performed utilizing a MTS-hOGG1-Tat fusion protein to target the hOGG1 repair enzyme to mitochondria and enhance mtDNA repair. The results revealed that the transduction of MTS-hOGG1-Tat into HeLa cells alleviated the cell cycle block following an oxidative insult. Furthermore, mechanistic studies showed that Chk2 phosphorylation was enhanced following menadione exposure. Treatment of the HeLa cells with the hOGG1 fusion protein prior to menadione exposure resulted in an increase in the rate of Chk2 dephosphorylation. These results strongly support a direct link between mtDNA damage and cell cycle arrest.

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Year:  2009        PMID: 19840931      PMCID: PMC2794735          DOI: 10.1074/jbc.M109.036020

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  25 in total

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Review 3.  Mitochondria damage checkpoint, aging, and cancer.

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  18 in total

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10.  Elevated levels of plasma mitochondrial DNA DAMPs are linked to clinical outcome in severely injured human subjects.

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