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High efficiency of ROS production by glycerophosphate dehydrogenase in mammalian mitochondria
T Mracek, A Pecinova, M Vrbacky, Z Drahota, J Houstek
Language English Country United States
- MeSH
- Antimycin A pharmacology MeSH
- Financing, Organized MeSH
- Glycerolphosphate Dehydrogenase metabolism MeSH
- Adipose Tissue, Brown metabolism MeSH
- Mitochondria, Liver metabolism drug effects MeSH
- Cricetinae MeSH
- Rats MeSH
- Succinic Acid metabolism MeSH
- Pyruvic Acid metabolism MeSH
- Mitochondria metabolism drug effects MeSH
- Brain metabolism MeSH
- Hydrogen Peroxide metabolism MeSH
- Rats, Wistar MeSH
- Reactive Oxygen Species metabolism MeSH
- Electron Transport Complex III metabolism MeSH
- Mitochondria, Heart metabolism drug effects MeSH
- In Vitro Techniques MeSH
- Electron Transport MeSH
- Animals MeSH
- Check Tag
- Cricetinae MeSH
- Rats MeSH
- Male MeSH
- Animals MeSH
We investigated hydrogen peroxide production in mitochondria with low (liver, heart, brain) and high (brown adipose tissue, BAT) content of glycerophosphate dehydrogenase (mGPDH). ROS production at state 4 due to electron backflow from mGPDH was low, but after inhibition of electron transport with antimycin A high rates of mGPDH-dependent ROS production were observed in liver, heart and brain mitochondria. When this ROS production was related to activity of mGPDH, many-fold higher ROS production was found in contrast to succinate- (39-, 28-, 3-fold) or pyruvate plus malate-dependent ROS production (32-, 96-, 5-fold). This specific rate of mGPDH-dependent ROS production was also exceedingly higher (28-, 66-, 22-fold) compared to that in BAT. mGPDH-dependent ROS production was localized to the dehydrogenase+CoQ and complex III, the latter being the highest in all mitochondria but BAT. Our results demonstrate high efficiency of mGPDH-dependent ROS production in mammalian mitochondria with a low content of mGPDH and suggest its endogenous inhibition in BAT.
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- $a 10.1016/j.abb.2008.10.011 $2 doi
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- $a Department of Bioenergetics, Institute of Physiology and Center for Applied Genomics, Academy of Sciences of the Czech Republic, Videnska 1083, Prague 4, Czech Republic.
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- $a We investigated hydrogen peroxide production in mitochondria with low (liver, heart, brain) and high (brown adipose tissue, BAT) content of glycerophosphate dehydrogenase (mGPDH). ROS production at state 4 due to electron backflow from mGPDH was low, but after inhibition of electron transport with antimycin A high rates of mGPDH-dependent ROS production were observed in liver, heart and brain mitochondria. When this ROS production was related to activity of mGPDH, many-fold higher ROS production was found in contrast to succinate- (39-, 28-, 3-fold) or pyruvate plus malate-dependent ROS production (32-, 96-, 5-fold). This specific rate of mGPDH-dependent ROS production was also exceedingly higher (28-, 66-, 22-fold) compared to that in BAT. mGPDH-dependent ROS production was localized to the dehydrogenase+CoQ and complex III, the latter being the highest in all mitochondria but BAT. Our results demonstrate high efficiency of mGPDH-dependent ROS production in mammalian mitochondria with a low content of mGPDH and suggest its endogenous inhibition in BAT.
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