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Journal Abstract Search

764 related items for PubMed ID: 21459330

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  • 3. Poly(ADP-ribose) polymerase-1-induced NAD(+) depletion promotes nuclear factor-κB transcriptional activity by preventing p65 de-acetylation.
    Kauppinen TM, Gan L, Swanson RA.
    Biochim Biophys Acta; 2013 Aug; 1833(8):1985-91. PubMed ID: 23597856
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  • 5. PARP inhibition protects against alcoholic and non-alcoholic steatohepatitis.
    Mukhopadhyay P, Horváth B, Rajesh M, Varga ZV, Gariani K, Ryu D, Cao Z, Holovac E, Park O, Zhou Z, Xu MJ, Wang W, Godlewski G, Paloczi J, Nemeth BT, Persidsky Y, Liaudet L, Haskó G, Bai P, Boulares AH, Auwerx J, Gao B, Pacher P.
    J Hepatol; 2017 Mar; 66(3):589-600. PubMed ID: 27984176
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  • 6. Poly(ADP-ribose) polymerase-2 depletion reduces doxorubicin-induced damage through SIRT1 induction.
    Szántó M, Rutkai I, Hegedus C, Czikora Á, Rózsahegyi M, Kiss B, Virág L, Gergely P, Tóth A, Bai P.
    Cardiovasc Res; 2011 Dec 01; 92(3):430-8. PubMed ID: 21921080
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  • 7. Cellular NAD depletion and decline of SIRT1 activity play critical roles in PARP-1-mediated acute epileptic neuronal death in vitro.
    Wang S, Yang X, Lin Y, Qiu X, Li H, Zhao X, Cao L, Liu X, Pang Y, Wang X, Chi Z.
    Brain Res; 2013 Oct 16; 1535():14-23. PubMed ID: 23994215
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  • 8. Pharmacological Inhibition of poly(ADP-ribose) polymerases improves fitness and mitochondrial function in skeletal muscle.
    Pirinen E, Cantó C, Jo YS, Morato L, Zhang H, Menzies KJ, Williams EG, Mouchiroud L, Moullan N, Hagberg C, Li W, Timmers S, Imhof R, Verbeek J, Pujol A, van Loon B, Viscomi C, Zeviani M, Schrauwen P, Sauve AA, Schoonjans K, Auwerx J.
    Cell Metab; 2014 Jun 03; 19(6):1034-41. PubMed ID: 24814482
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  • 9. NAD(+)-dependent activation of Sirt1 corrects the phenotype in a mouse model of mitochondrial disease.
    Cerutti R, Pirinen E, Lamperti C, Marchet S, Sauve AA, Li W, Leoni V, Schon EA, Dantzer F, Auwerx J, Viscomi C, Zeviani M.
    Cell Metab; 2014 Jun 03; 19(6):1042-9. PubMed ID: 24814483
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  • 14. Poly(ADP-ribose) polymerase-1 inhibits mitochondrial respiration by suppressing PGC-1α activity in neurons.
    Lu P, Hogan-Cann AD, Kamboj A, Roy Chowdhury SK, Aghanoori MR, Fernyhough P, Anderson CM.
    Neuropharmacology; 2019 Dec 01; 160():107755. PubMed ID: 31487495
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  • 16. Dysregulation of SIRT-1 in aging mice increases skeletal muscle fatigue by a PARP-1-dependent mechanism.
    Mohamed JS, Wilson JC, Myers MJ, Sisson KJ, Alway SE.
    Aging (Albany NY); 2014 Oct 01; 6(10):820-34. PubMed ID: 25361036
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  • 17. Augmentation of NAD(+) by NQO1 attenuates cisplatin-mediated hearing impairment.
    Kim HJ, Oh GS, Shen A, Lee SB, Choe SK, Kwon KB, Lee S, Seo KS, Kwak TH, Park R, So HS.
    Cell Death Dis; 2014 Jun 12; 5(6):e1292. PubMed ID: 24922076
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  • 18. Dunnione ameliorates cisplatin-induced small intestinal damage by modulating NAD(+) metabolism.
    Pandit A, Kim HJ, Oh GS, Shen A, Lee SB, Khadka D, Lee S, Shim H, Yang SH, Cho EY, Kwon KB, Kwak TH, Choe SK, Park R, So HS.
    Biochem Biophys Res Commun; 2015 Nov 27; 467(4):697-703. PubMed ID: 26498527
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  • 19. Mapping NAD(+) metabolism in the brain of ageing Wistar rats: potential targets for influencing brain senescence.
    Braidy N, Poljak A, Grant R, Jayasena T, Mansour H, Chan-Ling T, Guillemin GJ, Smythe G, Sachdev P.
    Biogerontology; 2014 Apr 27; 15(2):177-98. PubMed ID: 24337988
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  • 20. Poly(ADP-ribose) Polymerase (PARP) and PARP Inhibitors: Mechanisms of Action and Role in Cardiovascular Disorders.
    Henning RJ, Bourgeois M, Harbison RD.
    Cardiovasc Toxicol; 2018 Dec 27; 18(6):493-506. PubMed ID: 29968072
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