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Evidence for Peroxynitrite and Cognates in Whole Smoke

FR Perini
FR Perini
 e 
EA Robinson
EA Robinson
   | 30 dic 2014
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Pubblicato online: 30 dic 2014
Pagine: 264 - 272
Ricevuto: 29 giu 2004
Accettato: 13 dic 2004
DOI: https://doi.org/10.2478/cttr-2013-0792
© 2005 Beiträge zur Tabakforschung International
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. Akehurst, B.C.: Tobacco; Longman Group, Ltd., London, U.K., 1968.Search in Google Scholar

2. Stedman, R.L.: The chemical composition of tobacco and tobacco smoke; Chem. Rev. 68 (1968) 153–207.Search in Google Scholar

3. Perini, F.R.: Procedure for water-soluble anion determination in tobacco and related solid matrices; 45th Tobacco Chemists’ Research Conference, Program Booklet and Abstracts, Vol. 45, Paper No. 39, 1991, p. 34.Search in Google Scholar

4. Cooney, R.V. and P.D. Ross: N-Nitrosation and N-nitration of morpholine by nitrogen dioxide in aqueous solution: effects of vanillin and related phenols; J. Agr. Food Chem. 35 (1987) 789–793.Search in Google Scholar

5. Cooney, R.V., P.D. Ross, G.L. Bartolini, and J. Ram-seyer: N-Nitrosoamine and N-nitroamine formation: factors influencing the aqueous reactions of nitrogen dioxide with morpholine; Environ. Sci. Technol. 21 (1987) 77–83.Search in Google Scholar

6. Pourcelot, S., H. Faure, and J. Hee: Comparison of urinary excretion of DNA base adducts between smokers and non-smokers; Bull ARN (1999) 5–15.Search in Google Scholar

7. Iho, S., Y. Tanaka, R. Takauji, C. Kobayashi, I. Mura-matsu, H. Iwasaki, K. Nakamura, Y. Sasaki, and T. Takahashi: Nicotine induces human neutrophils to produce IL-8 through the generation of peroxynitrite and subsequent activation of NF-.kappa. B; J. Leukocyte Biol. 74 (2003) 942–951.Search in Google Scholar

8. Yamaguchi, Y., S. Kagota, J. Haginaka, and M. Kuni-tomo: Participation of peroxynitrite in oxidative modification of LDL by aqueous extracts of cigarette smoke; FEBS Lett. 512 (2002) 218–222.Search in Google Scholar

9. Takajo, Y, H. Ikeda, N. Haramaki, T. Murohara, and T. Imaizumi: Augmented oxidative stress of platelets in chronic smokers. Mechanisms of impaired platelet-derived nitric oxide bioactivity and augmented platelet aggregability; J. Amer. Coll. Cardiol. 38 (2001) 1320–1327.Search in Google Scholar

10. Kato, H., T. Miyazaki, M. Yoshikawa, M. Nakajima, Y. Fukai, K. Tajima, N. Masuda, S. Tsutsumi, K. Tsukada, T. Nakajima, and H. Kuwano: Nitrotyrosine in esophageal squamous cell carcinoma and relevance to p53 expression; Cancer Lett. 153 (2000) 121–127.Search in Google Scholar

11. Lin, J.-K., K.-J. Chen, G.-Y. Liu, Y.-R. Chu, and S.-Y. Lin-Shiau: Nitration and hydroxylation of aromatic amino acids and guanine by the air pollutant peroxy-acetyl nitrate; Chem.-Biol. Interact. 127 (2000) 219–236.Search in Google Scholar

12. Yamaguchi, Y., S. Kagota, J. Haginaka, and M. Kunitomo: Peroxynitrite-generating species: good can-didate oxidants in aqueous extracts of cigarette smoke; Japan J. Pharmacol. 82 (2000) 78–81.Search in Google Scholar

13. Chang, Y-C., K.-W. Tai, M.-Y. Chou, and T.-H. Tseng: Synergistic effects of peroxynitrite on arecoline-induced cytotoxicity in human buccal mucosal fibro-blasts; Toxicol. Lett. 118 (2000) 61–68.Search in Google Scholar

14. Müller, T. and S. Gebel: The cellular stress response induced by aqueous extracts of cigarette smoke is critically dependent on the intracellular glutathione concentration; Carcinogenesis 19 (1998) 797–801.Search in Google Scholar

15. Müller, T., H.-J. Haussmann, and G. Schepers: Evidence for peroxynitrite as an oxidative stress-inducing compound; Carcinogenesis 18 (1997) 295–301.Search in Google Scholar

17. Yoshie, Y. and H. Ohshima: Synergistic induction of DNA strand breakage by cigarette tar and nitric oxide; Carcinogenesis 18 (1997) 1359–1363.Search in Google Scholar

18. Deliconstantinos, G., V. Villiotou, and J.C. Stavrides: Scavenging effects of hemoglobin and related heme containing compounds on nitric oxide, reactive oxidants and carcinogenic volatile nitroso compounds of cigarette smoke. A new method for protection against the dangerous cigarette constituents; Anticancer Res.14 (1994) 2717–2726.Search in Google Scholar

19. Pryor, W.A. and K. Stone: Oxidants in cigarette smoke: radicals, hydrogen peroxide, peroxynitrate, and peroxy-nitrite; Ann. N. Y. Acad. Sci. 686 (1993) 12–28.Search in Google Scholar

20. Pouli, A.E., D.G. Hatzinikolaou, Ch. Piperi, A. Stavri-dou, M.C. Psallidopoulos, and J.C. Stavrides: The cytotoxic effect of volatile organic compounds of the gas phase of cigarette smoke on lung epithelial cells; Free Rad. Biol. Med. 34 (2003) 345–355.Search in Google Scholar

21. Runge, M.S., B. Vanhouten, and S.W. Ballinger: Mitochondrial DNA damage as a predictor of coronary atherosclerotic heart disease; US Patent No. 20030404945 (2003, February 27).Search in Google Scholar

22. Morot-Gaudry-Talarmain, Y., P. Rockel, T. Moureaux, I. Quillere, M.T. Leydecker, W.M. Kaiser, and J.F. Morot-Gaudry: Nitrite accumulation and nitric oxide emission in relation to cellular signaling in nitrite reduc-tase antisense tobacco; Planta 215 (2002) 708–715.Search in Google Scholar

23. Runge, M.S., S.W. Ballinger, and B. Vanhouten: Using mitochondrial DNA damage as a predictor of coronary atherosclerotic heart disease; US Patent No. 6322974 (2001, November 27).Search in Google Scholar

24. Clark, D., J. Durner, D.A. Navarre, and D.F. Klessig: Nitric oxide inhibition of tobacco catalase and ascor-bate peroxidase; Molec. Plant-Microbe Interact. 13 (2000) 1380–1384.Search in Google Scholar

25. Deliconstantinos, G. and V. Villiotou: Gas phase oxidants of cigarette smoke increase nitric oxide synthase and xanthine oxidase activities of rabbit brain synaptosomes; Neurochem. Res. 25 (2000) 769–774.Search in Google Scholar

25. Moreno, J.J.: Studies on cigarette smoke: I. Inactivation of a-1-PI. II. Oxidation of methionine by peroxonitrite. III. Release of iron from ferritin by smoke solutions; Diss. Abstr. Int. B 52 (1992) 4711-12.Search in Google Scholar

26. Perini, F.R., E.A. Robinson, and L.H. Gains: Evidence for peroxynitrite and cognates in whole smoke; 55th Tobacco Science Research Conference, Program Booklet and Abstracts, Vol. 55, Paper No. 90, 2001, p. 72.Search in Google Scholar

27. Uppu, R.M. and W.A. Pryor: Synthesis of peroxynitrite in a two-phase system using isoamyl nitrite and hydrogen peroxide; Anal. Biochem. 236 (1996) 242-249.Search in Google Scholar

28. Squadrito, G.L. and W.A. Pryor: The formation of peroxynitrite in vivo from nitric oxide and superoxide; Chemical-Biol. Interact. 96(1995)203-206.Search in Google Scholar

29. Venkataraman, S., S.M. Martin, F.Q. Schafer, and G.R. Buettner: Detailed methods for the quantification of nitric oxide in aqueous solutions using either an oxygen monitor or EPR; Free Radical Biol. Med. 29 (2000) 580.Search in Google Scholar

30. Zhu, S., M. Manuel, S. Tanaka, N. Choe, and E. Kagan: Contribution of reactive oxygen and nitrogen species to particulate-induced lung injury; Environ. Health Perspect. Suppl. 106 (1998) 1157-1163.Search in Google Scholar

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