KNOWLEDGEBASE
Research & Publications
Precision longevity medicine built on science, education, and gold-standard NAD+ therapeutics — empowering clinics, clinicians, and individuals worldwide to optimise healthspan and performance.
KNOWLEDGEBASE
Precision longevity medicine built on science, education, and gold-standard NAD+ therapeutics — empowering clinics, clinicians, and individuals worldwide to optimise healthspan and performance.
Alano CC, Garnier P, Ying W, Higashi Y, Kauppinen TM, and Swanson RA. NAD+ depletion is necessary and sufficient for poly(ADP-ribose) polymerase-1-mediated neuronal death. J Neurosci 30: 2967–2978, 2010
Benfeitas R, Uhlen M, Nielsen J, and Mardinoglu A. New challenges to study heterogeneity in cancer redox metabolism. Front Cell Dev Biol 5: 65, 2017
Braidy N, Guillemin G, and Grant R. Promotion of cellular NAD(+) anabolism: therapeutic potential for oxidative stress in ageing and Alzheimer's disease. Neurotox Res 13: 173–184, 2008
Braidy N, Poljak A, Grant R, Jayasena T, Mansour H, Chan-Ling T, Guillemin GJ, Smythe G, and Sachdev P. Mapping NAD(+) metabolism in the brain of ageing Wistar rats: potential targets for influencing brain senescence. Biogerontology 15: 177–198, 2014
Godoy JA, Rios JA, Zolezzi JM, Braidy N, and Inestrosa NC. Signalling pathway cross talk in Alzheimer's disease. Cell Commun Signal 12: 23, 2014
Godoy JA, Zolezzi JM, Braidy N, and Inestrosa NC. Role of Sirt1 during the ageing process: relevance to protection of synapses in the brain. Mol Neurobiol 50: 744–756, 2014
Marohnic CC, Bewley MC, and Barber MJ. Engineering and characterization of a NADPH-utilizing cytochrome b5 reductase. Biochemistry 42: 11170–11182, 2003
Massudi H, Grant R, Guillemin GJ, and Braidy N. NAD+ metabolism and oxidative stress: the golden nucleotide on a crown of thorns. Redox Rep 17: 28–46, 2012
Spaans SK, Weusthuis RA, van der Oost J, and Kengen SW. NADPH-generating systems in bacteria and archaea. Front Microbiol 6: 742, 2015
Tang KS, Suh SW, Alano CC, Shao Z, Hunt WT, Swanson RA, and Anderson CM. Astrocytic poly(ADP-ribose) polymerase-1 activation leads to bioenergetic depletion and inhibition of glutamate uptake capacity. Glia 58: 446–457, 2010
Tao R, Kim SH, Honbo N, Karliner JS, and Alano CC. Minocycline protects cardiac myocytes against simulated ischemia-reperfusion injury by inhibiting poly(ADP-ribose) polymerase-1. J Cardiovasc Pharmacol 56: 659–668, 2010
Warburg O. and Christian W. Pyridine, the hydrogen transferring element of fermentation enzymes (Pyridine-nucleotide.). Biochemische Zeitschrift 287: 291–328, 1936
Yin F, Boveris A, and Cadenas E. Mitochondrial energy metabolism and redox signaling in brain aging and neurodegeneration. Antioxid Redox Signal 20: 353–371, 2014
Zeng J, Libien J, Shaik F, Wolk J, and Hernandez AI. Nucleolar PARP-1 expression is decreased in Alzheimer's disease: consequences for epigenetic regulation of rDNA and cognition. Neural Plast 2016: 8987928, 2016