Study explores in vivo role of ubiquinone in mouse model

Study explores in vivo role of ubiquinone in mouse model

(HealthDay)—Ubiquinone (UQ) does not act as an antioxidant in vivo, and partial restoration of UQ levels and mitochondrial function can reverse severe disease phenotypes and shortened lifespan, according to an experimental study published online March 6 in Nature Communications.

Noting that UQ has been implicated in mitochondrial electron transport, superoxide generation, and as a membrane antioxidant, Ying Wang, M.D., from McGill University in Montreal, and colleagues present a in which UQ biosynthesis can be interrupted and partially restored at will.

The researchers found that, in vivo, UQ did not act as an antioxidant, and its requirement for electron transport was lower than expected, even in mitochondria-rich organs. Severely depressed mitochondrial function due to UQ depletion did not acutely impair heart function. Furthermore, severe disease phenotypes and shortened lifespan could be reversed on partial restoration of UQ levels and .

"This observation strongly suggests that the irreversible degenerative phenotypes that characterize ageing are not secondarily caused by the gradual mitochondrial dysfunction that is observed in aged animals," the authors write.

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Journal information: Nature Communications

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Citation: Study explores in vivo role of ubiquinone in mouse model (2015, March 11) retrieved 19 March 2024 from https://medicalxpress.com/news/2015-03-explores-vivo-role-ubiquinone-mouse.html
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