Abstract
Nicotinamide adenine dinucleotide (NAD) is an essential co-enzyme mediating various enzymatic reactions. Mitochondrial NAD particularly occupies a considerable amount of total NAD in cells, and serves as a co-enzyme in tricarboxylic acid cycle (TCA cycle), β-oxidation, and oxidative phosphorylation. Despite the importance of mitochondrial NAD, its synthesis pathway remains unknown. It has been proposed that NAD synthesis enzyme, Nmnat3, was localized in mitochondria, but its physiological relevance to the metabolism in mitochondria was not fully elucidated. Previously, we have reported that murine Nmnat3 protein was strongly expressed in the cytoplasm of mature erythrocytes, in which mitochondria were absent, and Nmnat3-deficient mice (Nmnat3-KO mice) exhibited splenomegaly and hemolytic anemia due to reduced NAD levels in mature erythrocytes. These results challenged the role of Nmnat3 in mitochondrial NAD synthesis. In this study, we demonstrated that mitochondrial NAD levels in various tissues, except for red blood cells, were unchanged in Nmnat3-KO mice. We also analyzed the metabolites in glycolysis and TCA cycle and found that there were no differences between Nmnat3-KO and WT mice. In addition, the aged Nmnat3-KO mice had comparable NAD levels to that observed in WT mice. Our results indicated that Nmnat3 is dispensable in the maintenance of mitochondrial NAD levels, and that other NAD regulatory pathways may exist in mitochondria.
Highlights
Mitochondria are energy centers producing ATP through oxidative phosphorylation [1]
We found that Nmnat3 was mainly localized in the cytoplasm and was not essential for the maintenance of mitochondrial Nicotinamide adenine dinucleotide (NAD) homeostasis
To investigate the role of Nmnat3 in mitochondrial NAD synthesis, we examined the tissue distribution of Nmnat3 in wild-type (WT) mice by Western blotting with antimouse Nmnat3 monoclonal antibody
Summary
Mitochondria are energy centers producing ATP through oxidative phosphorylation [1]. NAD is reduced to a form of NADH by TCA cycle or β-oxidation in mitochondria. NADH is oxidized through the electron transport chain generating ATP [2,3]. It has been considered that 40%–70% of NAD in cells resides in the mitochondria [4,5,6]. The mammalian mitochondrion is an organelle, which has a lipid bilayer membrane, and PLOS ONE | DOI:10.1371/journal.pone.0147037. The mammalian mitochondrion is an organelle, which has a lipid bilayer membrane, and PLOS ONE | DOI:10.1371/journal.pone.0147037 January 12, 2016
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