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Oxidative phosphorylation is impaired by prolonged hypoxia in breast and possibly in cervix carcinoma

It has been assumed that oxidative phosphorylation (OxPhos) in solid tumors is severely reduced due to cytochrome c oxidase substrate restriction, although the measured extracellular oxygen concentration in hypoxic areas seems not limiting for this activity. To identify alternative hypoxia-induced O...

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Published in:The international journal of biochemistry & cell biology 2010-10, Vol.42 (10), p.1744-1751
Main Authors: Rodríguez-Enríquez, Sara, Carreño-Fuentes, Liliana, Gallardo-Pérez, Juan Carlos, Saavedra, Emma, Quezada, Héctor, Vega, Alicia, Marín-Hernández, Alvaro, Olín-Sandoval, Viridiana, Torres-Márquez, M. Eugenia, Moreno-Sánchez, Rafael
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Language:English
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Summary:It has been assumed that oxidative phosphorylation (OxPhos) in solid tumors is severely reduced due to cytochrome c oxidase substrate restriction, although the measured extracellular oxygen concentration in hypoxic areas seems not limiting for this activity. To identify alternative hypoxia-induced OxPhos depressing mechanisms, an integral analysis of transcription, translation, enzyme activities and pathway fluxes was performed on glycolysis and OxPhos in HeLa and MCF-7 carcinomas. In both neoplasias exposed to hypoxia, an early transcriptional response was observed after 8h (two times increased glycolysis-related mRNA synthesis promoted by increased HIF-1α levels). However, major metabolic remodeling was observed only after 24h hypoxia: increased glycolytic protein content (1–5-times), enzyme activities (2-times) and fluxes (4–6-times). Interestingly, in MCF-7 cells, 24h hypoxia decreased OxPhos flux (4–6-fold), and 2-oxoglutarate dehydrogenase and glutaminase activities (3-fold), with no changes in respiratory complexes I and IV activities. In contrast, 24h hypoxia did not significantly affect HeLa OxPhos flux; neither mitochondria related mRNAs, protein contents or enzyme activities, although the enhanced glycolysis became the main ATP supplier. Thus, prolonged hypoxia (a) targeted some mitochondrial enzymes in MCF-7 but not in HeLa cells, and (b) induced a transition from mitochondrial towards a glycolytic-dependent energy metabolism in both MCF-7 and HeLa carcinomas.
ISSN:1357-2725
1878-5875
DOI:10.1016/j.biocel.2010.07.010