Coenzyme Q intake elevates the mitochondrial and tissue levels of coenzyme Q and [alpha]-tocopherol in young mice1

The main objective of this study was to resolve the issue of whether the amounts of Coenzyme Q (CoQ), which is endogenously synthesized in cells, can be elevated in tissues and mitochondria of young mice by dietary supplementation with CoQ^sub 10^. The prevalent view is that the uptake of exogenous...

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Veröffentlicht in:	The Journal of nutrition 2003-10, Vol.133 (10), p.3175
Hauptverfasser:	Kamzalov, Sergey, Sumien, Nathalie, ster, Michael J, Sohal, Rajindar S
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Sprache:	eng
Schlagworte:	Antioxidants Brain Dietary supplements Enzymes Rodents Tissues
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description	The main objective of this study was to resolve the issue of whether the amounts of Coenzyme Q (CoQ), which is endogenously synthesized in cells, can be elevated in tissues and mitochondria of young mice by dietary supplementation with CoQ^sub 10^. The prevalent view is that the uptake of exogenous CoQ by tissues other than plasma and liver either does not occur or is quite minimal. Mice, 6 mo of age, were fed 0, 148 or 654 mg CoQ^sub 10^/(kg body . d) in their diets for 11 wk. CoQ^sub 10^ intake enhanced both CoQ^sub 9^ and CoQ^sub 10^ homologues in the plasma, and in homogenates and mitochondria of liver, heart and skeletal muscle. CoQ was elevated in brain mitochondria, but not in the brain homogenate. The uptake of exogenous CoQ was higher in mitochondria of heart and skeletal muscle than those in liver. CoQ^sub 10^ administration also elevated the [alpha]-tocopherol concentration in tissue homogenates and their mitochondria, thereby providing an in vivo indication of the "sparing" effect of CoQ on [alpha]-tocopherol. Results of this study demonstrate that, contrary to the historical view, both total and mitochondrial CoQ concentrations in the heart and skeletal muscle and in the mitochondria of brain of young mice can be augmented by dietary supplementation. Furthermore, CoQ intake enhances the antioxidative potential of tissues by elevating the endogenous amounts of [alpha]-tocopherol. J. Nutr. 133: 3175-3180, 2003. [PUBLICATION ABSTRACT] KEY WORDS: * coenzyme Q * mitochondria * [alpha]-tocopherol * aging * oxidative stress * antioxidants
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The prevalent view is that the uptake of exogenous CoQ by tissues other than plasma and liver either does not occur or is quite minimal. Mice, 6 mo of age, were fed 0, 148 or 654 mg CoQ^sub 10^/(kg body . d) in their diets for 11 wk. CoQ^sub 10^ intake enhanced both CoQ^sub 9^ and CoQ^sub 10^ homologues in the plasma, and in homogenates and mitochondria of liver, heart and skeletal muscle. CoQ was elevated in brain mitochondria, but not in the brain homogenate. The uptake of exogenous CoQ was higher in mitochondria of heart and skeletal muscle than those in liver. CoQ^sub 10^ administration also elevated the [alpha]-tocopherol concentration in tissue homogenates and their mitochondria, thereby providing an in vivo indication of the "sparing" effect of CoQ on [alpha]-tocopherol. Results of this study demonstrate that, contrary to the historical view, both total and mitochondrial CoQ concentrations in the heart and skeletal muscle and in the mitochondria of brain of young mice can be augmented by dietary supplementation. Furthermore, CoQ intake enhances the antioxidative potential of tissues by elevating the endogenous amounts of [alpha]-tocopherol. J. Nutr. 133: 3175-3180, 2003. 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The prevalent view is that the uptake of exogenous CoQ by tissues other than plasma and liver either does not occur or is quite minimal. Mice, 6 mo of age, were fed 0, 148 or 654 mg CoQ^sub 10^/(kg body . d) in their diets for 11 wk. CoQ^sub 10^ intake enhanced both CoQ^sub 9^ and CoQ^sub 10^ homologues in the plasma, and in homogenates and mitochondria of liver, heart and skeletal muscle. CoQ was elevated in brain mitochondria, but not in the brain homogenate. The uptake of exogenous CoQ was higher in mitochondria of heart and skeletal muscle than those in liver. CoQ^sub 10^ administration also elevated the [alpha]-tocopherol concentration in tissue homogenates and their mitochondria, thereby providing an in vivo indication of the "sparing" effect of CoQ on [alpha]-tocopherol. 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subjects	Antioxidants Brain Dietary supplements Enzymes Rodents Tissues
title	Coenzyme Q intake elevates the mitochondrial and tissue levels of coenzyme Q and [alpha]-tocopherol in young mice1
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