Karthikeyani Chellappa scite author profile

The redox cofactor nicotinamide adenine dinucleotide (NAD) plays a central role in metabolism and is a substrate for signaling enzymes including poly-ADP-ribose-polymerases (PARPs) and sirtuins. NAD concentration falls during aging, which has triggered intense interest in strategies to boost NAD levels. A limitation in understanding NAD metabolism has been reliance on concentration measurements. Here, we present isotope-tracer methods for NAD flux quantitation. In cell lines, NAD was made from nicotinamide and consumed largely by PARPs and sirtuins. In vivo, NAD was made from tryptophan selectively in the liver, which then excreted nicotinamide. NAD fluxes varied widely across tissues, with high flux in the small intestine and spleen and low flux in the skeletal muscle. Intravenous administration of nicotinamide riboside or mononucleotide delivered intact molecules to multiple tissues, but the same agents given orally were metabolized to nicotinamide in the liver. Thus, flux analysis can reveal tissue-specific NAD metabolism.

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Loss of NAD Homeostasis Leads to Progressive and Reversible Degeneration of Skeletal Muscle

Frederick

et al. 2016

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Summary NAD is an obligate co-factor for the catabolism of metabolic fuels in all cell types. However, the availability of NAD in several tissues can become limited during genotoxic stress and the course of natural aging. The point at which NAD restriction imposes functional limitations on tissue physiology remains unknown. We examined this question in murine skeletal muscle by specifically deleting Nampt, an essential enzyme in the NAD salvage pathway. Knockout mice exhibited a dramatic 85% decline in intramuscular NAD content, accompanied by fiber degeneration and progressive loss of both muscle strength and treadmill endurance. Administration of the NAD precursor nicotinamide riboside rapidly ameliorated functional deficits and restored muscle mass, despite having only a modest effect on the intramuscular NAD pool. Additionally, lifelong overexpression of Nampt preserved muscle NAD levels and exercise capacity in aged mice, supporting a critical role for tissue-autonomous NAD homeostasis in maintaining muscle mass and function.

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CD38 ecto-enzyme in immune cells is induced during aging and regulates NAD+ and NMN levels

et al. 2020

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Decreased nicotinamide adenine dinucleotide (NAD + ) levels have been shown to contribute to metabolic dysfunction during aging. NAD + decline can be partially prevented by knockout of the enzyme CD38. However, it is not known how CD38 is regulated during aging, and how its ecto-enzymatic activity impacts NAD + homeostasis. Here we show that increases in CD38 in white adipose tissue (WAT) and liver during aging is mediated by accumulation of CD38 + immune cells. Inflammation increases CD38 and decreases NAD + . In addition, senescent cells and their secreted signals promote accumulation of CD38 + cells in WAT, and ablation of senescent cells or their secretory phenotype decrease CD38, partially reversing NAD + decline. Finally, blocking the ecto-enzymatic activity of CD38 can increase NAD + through a nicotinamide mononucleotide (NMN)-dependent process. Our findings demonstrate that senescence-induced inflammation promotes accumulation of CD38 in immune cells that through its ecto-enzymatic activity decreases levels of NMN and NAD + .

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Src tyrosine kinase phosphorylation of nuclear receptor HNF4α correlates with isoform-specific loss of HNF4α in human colon cancer

Chellappa

Jankova²,

Schnabl³

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

109

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Src tyrosine kinase has long been implicated in colon cancer but much remains to be learned about its substrates. The nuclear receptor hepatocyte nuclear factor 4α (HNF4α) has just recently been implicated in colon cancer but its role is poorly defined. Here we show that c-Src phosphorylates human HNF4α on three tyrosines in an interdependent and isoform-specific fashion. The initial phosphorylation site is a Tyr residue (Y14) present in the N-terminal A/B domain of P1-but not P2-driven HNF4α. Phospho-Y14 interacts with the Src SH2 domain, leading to the phosphorylation of two additional tyrosines in the ligand binding domain (LBD) in P1-HNF4α. Phosphomimetic mutants in the LBD decrease P1-HNF4α protein stability, nuclear localization and transactivation function. Immunohistochemical analysis of approximately 450 human colon cancer specimens (Stage III) reveals that P1-HNF4α is either lost or localized in the cytoplasm in approximately 80% of tumors, and that staining for active Src correlates with those events in a subset of samples. Finally, three SNPs in the human HNF4α protein, two of which are in the HNF4α F domain that interacts with the Src SH3 domain, increase phosphorylation by Src and decrease HNF4α protein stability and function, suggesting that individuals with those variants may be more susceptible to Src-mediated effects. This newly identified interaction between Src kinase and HNF4α has important implications for colon and other cancers.HNF4 isoforms | SH2 SH3 domain | SNP | Src kinase | tyrosine phosphorylation C olon cancer, the third most common malignancy in the United States, is a multifactorial disease that is influenced by both genetics and the environment (1, 2). c-Src is a nonreceptor tyrosine kinase that is strongly implicated in the development, growth, progression, and metastasis of several human cancers (3). In colon cancer, Src activation is associated with the early stages (4, 5) as well as progression and metastasis (6-8). Despite this long association with colon cancer, much remains to be learned about Src substrates (9).Hepatocyte nuclear factor 4alpha (HNF4α) (NR2A1) is a highly conserved member of the nuclear receptor superfamily with a recently identified endogenous ligand (linoleic acid) that binds in a reversible fashion (10, 11). HNF4α is best known for its role as a master regulator of liver-specific gene expression and as a key player in beta cells of the pancreas where it is mutated in an inherited form of type 2 diabetes (12)(13)(14). HNF4α is also expressed in kidney, stomach, and intestine; several recent papers also show an important role for HNF4α in the colon (15-20). There are two different promoters (P1 and P2) of HNF4A that are utilized in a temporal and tissue-specific fashion (11) (Fig. S1). While only P1-driven HNF4α (P1-HNF4α) is expressed in the adult liver, both P1-and P2-driven HNF4α (P2-HNF4α) are expressed in the adult intestine and colon (21, 22). Expression of P1-HNF4α is decreased in several human cancers including hepatocellular, gastric, renal, and...

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Nicotinamide adenine dinucleotide is transported into mammalian mitochondria

et al. 2018

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Mitochondrial NAD levels influence fuel selection, circadian rhythms, and cell survival under stress. It has alternately been argued that NAD in mammalian mitochondria arises from import of cytosolic nicotinamide (NAM), nicotinamide mononucleotide (NMN), or NAD itself. We provide evidence that murine and human mitochondria take up intact NAD. Isolated mitochondria preparations cannot make NAD from NAM, and while NAD is synthesized from NMN, it does not localize to the mitochondrial matrix or effectively support oxidative phosphorylation. Treating cells with nicotinamide riboside that is isotopically labeled on the nicotinamide and ribose moieties results in the appearance of doubly labeled NAD within mitochondria. Analogous experiments with doubly labeled nicotinic acid riboside (labeling cytosolic NAD without labeling NMN) demonstrate that NAD(H) is the imported species. Our results challenge the long-held view that the mitochondrial inner membrane is impermeable to pyridine nucleotides and suggest the existence of an unrecognized mammalian NAD (or NADH) transporter.

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