Mapping the role of NAD metabolism inprevention and treatment of carcinogenesis |
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| Authors: | Jacobson Elaine L. Jacobson Elaine L. Jacobson Elaine L. Jacobson Elaine L. Shieh W. Melissa Huang Arnold C. |
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| Affiliation: | (1) Department of Clinical Sciences, University of Kentucky, Lexington, KY, USA;(2) Multidisciplinary Program in Nutritional Sciences, University of Kentucky, Lexington, KY, USA;(3) Advanced Science and Technology Commercialization Centre, University of Kentucky, Lexington, KY, USA;(4) Lucille P. Markey Cancer Center, University of Kentucky, Lexington, KY, USA |
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| Abstract: | Studies presented here show that cellular NAD, which we hypothesize to be the relevant biomarker of niacin status, is significantly lower in humans than in the commonly studied animal models of carcinogenesis. We show that nicotinamide and the resulting cellular NAD concentration modulate expression of the tumor suppressor protein, p53, in human breast, skin, and lung cells. Studies to determine the optimal NAD concentrations for responding to DNA damage in breast epithelial cells reveal that DNA damage appears to stimulate NAD biosynthesis and that recovery from DNA damage occurs several hours earlier in the presence of higher NAD or in cells undergoing active NAD biosynthesis. Finally, analyses of normal human skin tissue from individuals diagnosed with actinic keratoses or squamous cell carcinomas show that NAD content of the skin is inversely correlated with the malignant phenotype. Since NAD is important in modulating ADP-ribose polymer metabolism, cyclic ADP-ribose synthesis, and stress response proteins, such as p53, following DNA damage, understanding how NAD metabolism is regulated in the human has important implications in developing both prevention and treatment strategies in carcinogenesis. |
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| Keywords: | skin lung and breast cancer p53 expression cyclic ADP-ribose poly(ADP-ribose) metabolism niacin status |
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