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Gamma rays induce a p53-independent mitochondrial biogenesis that is counter-regulated by HIF1?.


ABSTRACT: Mitochondrial biogenesis is an orchestrated process that presides to the regulation of the organelles homeostasis within a cell. We show that ?-rays, at doses commonly used in the radiation therapy for cancer treatment, induce an increase in mitochondrial mass and function, in response to a genotoxic stress that pushes cells into senescence, in the presence of a functional p53. Although the main effector of the response to ?-rays is the p53-p21 axis, we demonstrated that mitochondrial biogenesis is only indirectly regulated by p53, whose activation triggers a murine double minute 2 (MDM2)-mediated hypoxia-inducible factor 1? (HIF1?) degradation, leading to the release of peroxisome-proliferator activated receptor gamma co-activator 1? inhibition by HIF1?, thus promoting mitochondrial biogenesis. Mimicking hypoxia by HIF1? stabilization, in fact, blunts the mitochondrial response to ?-rays as well as the induction of p21-mediated cell senescence, indicating prevalence of the hypoxic over the genotoxic response. Finally, we also show in vivo that post-radiotherapy mitochondrial DNA copy number increase well correlates with lack of HIF1? increase in the tissue, concluding this may be a useful molecular tool to infer the trigger of a hypoxic response during radiotherapy, which may lead to failure of activation of cell senescence.

SUBMITTER: Bartoletti-Stella A 

PROVIDER: S-EPMC3702280 | biostudies-literature | 2013 Jun

REPOSITORIES: biostudies-literature

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Gamma rays induce a p53-independent mitochondrial biogenesis that is counter-regulated by HIF1α.

Bartoletti-Stella A A   Mariani E E   Kurelac I I   Maresca A A   Caratozzolo M F MF   Iommarini L L   Carelli V V   Eusebi L H LH   Guido A A   Cenacchi G G   Fuccio L L   Rugolo M M   Tullo A A   Porcelli A M AM   Gasparre G G  

Cell death & disease 20130613


Mitochondrial biogenesis is an orchestrated process that presides to the regulation of the organelles homeostasis within a cell. We show that γ-rays, at doses commonly used in the radiation therapy for cancer treatment, induce an increase in mitochondrial mass and function, in response to a genotoxic stress that pushes cells into senescence, in the presence of a functional p53. Although the main effector of the response to γ-rays is the p53-p21 axis, we demonstrated that mitochondrial biogenesis  ...[more]

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