Abstract
This chapter represents a compilation of various studies and reviews on various sub-categories of trapped metabolites
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Albano, E., Lott, K.A.K., Slater, T.F., Stier, A., Symons, M.C.R. and Tomasi, A. (1982) Spin-trapping studies on the free-radical products formed by metabolic activation of carbon tetrachloride in rat liver microsomal fractions isolated hepatocytes andin vivoin the rat. Biochem. J., 204, 593–603.
Burkitt, M.J.and Mason, R.P. (1991) Direct evidence forin vivohydroxyl-radical generation in experimental iron overload: an ESR spin-trapping investigation. Proc. Natl. Acad. Sci. U.S.A., 88, 8440–8444.
Burkitt, M.J., Kadiiska, M.B., Hanna, P.M., Jordan, S.J. and Mason, R.P. (1993) Electron spin resonance spin-trapping investigation into the effects of paraquat and desferrioxamine on hydroxyl radical generation during acute iron poisoning. Mol. Pharmacol., 43, 257–263.
Castro, G.D., Delgado De Layño, A.M.A. and Castro, J.A. (1997) Hydroxyl and 1hydroxyethyl free radical detection using spin traps followed by derivatization and gas chromatography-mass spectrometry. Redox Report, 3, 343–347.
Chamulitrat, W., Jordan, S.J. and Mason, R.P. (1992) Fatty acid radical formation in rats administered oxidized fatty acids:in vivospin trapping investigation. Arch. Biochem. Biophys., 299, 361–367.
Chamulitrat, W., Carnal, J., Reed, N.M. and Spitzer, J.J. (1998) In vivo endotoxin enhances biliary ethanol-dependent free radical generation. Am. J. Physiol., 274, G653–G661.
Connor, H.D., Thurman, R.G., Galizi, M.D. and Mason, R.P. (1986) The formation of a novel free radical metabolite from CC14in the perfused rat liver andin vivo.J. Biol. Chem., 261, 4542–4548.
Dürk, H., Poyer, J.L., Klessen, C. and Frank, H. (1992) Acetylene, a mammalian metabolite of 1,1,1,-trichloroethane. Biochem. J., 286, 353–356.
Frejaville, C., Karoui, H., Tuccio, B., le Moigne, F., Culcasi, M., Pietri, S., Lauricella, R., and Tordo, P. (1994) 5-diethoxyphosphoryl-5-methyl-l-pyrroline N-oxide (DEPMPO): A new phosphorylated nitrone for the efficientin vitroandin vivospin trapping of oxygen-centered radicals. J. Chem. Soc., Chem. Commun., 1793–1794.
Frejaville, C., Karoui, H., Tuccio, B., le Moigne, F., Culcasi, M., Pietri, S., Lauricella, R., and Tordo, P. (1995) 5-(diethoxyphosphoryl)-5-methyl-l-pyrroline N-oxide: A new efficient phosphorylated nitrone for thein vitroandin vivospin trapping of oxygen-centered radicals. J. Med. Chem., 38, 258–265.
Fujii, K., Morio, M., Kikuchi, H., Ishihara, S., Okida, M., and Ficor, F. (1984)In vivospin-trap study on anaerobic dehalogenation of halothane. Life Sci., 35, 463–468.
Ghio, A.J., Kadiiska, M.B., Xiang, Q.-H., and Mason, R.P. (1998) In vivo evidence of free radical formation after asbestos instillation: An ESR spin trapping investigation. Free Radical Biol. Med., 24, 11–17.
Goria-Gatti, L., Pannone, A., Tomasi, A., Poli, G., and Albano, E. (1992)In vitroandin vivoevidence for the formation of methyl radical from procarbazine: a spin-trapping study. Carcinogenesis, 13, 799–805.
Hanna, P.M. and Mason, R.P. (1992) Direct evidence for inhibition of free radical formation from Cu(I) and hydrogen peroxide by glutathione and other potential ligands using the EPR spin-trapping technique. Arch. Biochem. Biophys., 295, 205–213.
Hanna, P.M., Kadiiska, M.B., Jordan, S.J., and Mason, R.P. (1993) Role of metallothionein in zinc(II) and chromium(III) mediated tolerance to carbon tetrachloride hepatoxicity: Evidence against a trichloromethyl radical-scavenging mechanism. Chem. Res. Toxicol., 6, 711–717.
Hughes, H.M., George, I.M., Evans, J.C., Rowlands, C.C., Powell, G.M, and Curtis, C.G. (1991) The role of the liver in the production of free radicals during halothane anaesthesia in the rat. Quantification of N-tert-butyl-a-(4-nitrophenyl)nitrone (PBN)-trapped adducts in bile from halothane as compared with carbon tetrachloride. Biochem. J., 277, 795–800.
Iimuro, Y., Bradford, B.U., Gao, W., Kadiiska, M., Mason, R.P., Stefanovic, B., Brenner, D.A., and Thurman, R.G. (1996) Detection of a-hydroxyethyl free radical adducts in the pancreas after chronic exposure to alcohol in the rat. Mol. Pharmacol., 50, 656–661.
Iwahashi, H., Deterding, L.J., Parker, C.E., Mason, R.P., and Tomer, K.B. (1996) Identification of radical adducts formed in the reactions of unsaturated fatty acids with soybean lipoxygenase using continuous flow fast atom bombardment with tandem mass spectroscopy. Free Radical Res., 25, 255–274.
Janzen, E.G., Towner, R.A., Krygsman, P.H., Haire, D.L., and Poyer, J.L. (1990) Structure identification of free radicals by ESR and GC/MS of PBN spin adducts from thein vitroandin vivorat liver metabolism of halothane. Free Radical Res. Comms., 9, 343–351.
Kadiiska, M.B., Hanna, P.M., Hernandez, L., and Mason, R.P. (1992)In vivoevidence of hydroxyl radical formation after acute copper and ascorbic acid intake: Electron spin resonance spin-trapping investigation, Mol. Pharmacol., 42, 723–729.
Kadiiska, M.B., Hanna, P.M., Jordan, S.J., and Mason, R.P. (1993a) Electron spin resonance evidence for free radical generation in copper-treated vitamin E- and selenium-deficient rats:In vivospin-trapping investigation. Mol. Pharmacol., 44, 222–227.
Kadiiska, M.B., Hanna, P.M., and Mason, R.P. (1993b)In vivoESR spin trapping evidence for hydroxyl radical-mediated toxicity of paraquat and copper in rats. Toxicol. Appl. Pharmacol., 123, 187–192.
Kadiiska, M.B., Xiang, Q.-H., and Mason, R.P. (1994) In vivo free radical generation by chromium (VI): An electron spin resonance spin-trapping investigation. Chem. Res. Toxicol. 7, 800–805.
Kadiiska, M.B., Burkitt, M.J., Xiang, Q.-H., and Mason, R.P. (1995) Iron supplementation generates hydroxyl radicalin vivo:An ESR spin-trapping investigation. J. Clin. Invest., 96,1653–1657.
Kadiiska, M.B., Burkitt, M.J., Xiang, Q.-H., and Mason, R.P. (1997a) Effect of acute iron and ascorbic acid administration on free-radical generation in young and older rats: An ESR spin-trapping investigation. Environ. Nutr. Interact., 1, 143–159.
Kadiiska, M.B., Mason, R.P., Dreher, K.L., Costa, D.L., and Ghio, A.J. (1997b)In vivoevidence of free radical formation in the rat lung after exposure to an emission source air pollution particle. Chem. Res. Toxicol., 10, 1104–1108.
Kadiiska, M.B., Morrow, J.D., Awad, J.A., Roberts, III L.J., and Mason, R.P. (1998) Identification of free radical formation and F2-isoprostanes in vivo by acute Cr(VI) poisoning. Chem. Res. Toxicol., 11, 1516–1520.
Kennedy, C.H., Hatch, G.E., Slade, R., and Mason, R.P. (1992) Application of the EPR spin-trapping technique to the detection of radicals producedin vivoduring inhalation exposure of rats to ozone. Toxicol. Appl. Pharmacol., 114, 41–46.
Knecht, K.T., and Mason, R.P. (1988)In vivoradical trapping and biliary secretion of radical adducts of carbon tetrachloride-derived free radical metabolites. Drug Metab. Disposit., 16,813–817.
Knecht, K.T., Bradford, B.U., Mason, R.P., and Thurman, R.G. (1990)In vivoformation of a free radical metabolite of ethanol. Mol. Pharmacol., 38, 26–30.
Knecht, K.T., and Mason, R.P. (1991) The detection of halocarbon-derived radical adducts in bile and liver of rats. Drug Metab. Dispos., 19, 325–331.
Knecht, K.T., DeGray, J.A., and Mason, R.P. (1992) Free radical metabolism of halothanein vivo:Radical adducts detected in bile. Mol. Pharmacol., 41, 943–949.
Knecht, K.T. and Mason, R.P. (1993)In vivospin trapping of xenobiotic free radical metabolites. Arch. Biochem. Biophys., 303, 185–194.
Knecht, K.T., Adachi, Y., Bradford, B.U., Iimuro, Y., Kadiiska, M.B., Xuang, Q.-H., and Thurman, R.G. (1995) Free radical adducts in the bile of rats treated chronically with intragastric alcohol: Inhibition by destruction of Kupffer cells. Mol. Pharamcol., 47, 1028–1034.
Kubow, S., Janzen, E.G., and Bray, T.M. (1984) Spin-trapping of free radicals formed duringin vitroandin vivometabolism of 3-methylindole. J. Biol. Chem., 259, 4447–4451.
Kubow, S., Bray, T.M., and Janzen, E.G. (1985) Spin-trapping studies on the effects of vitamin E and glutathione on free radical production induced by 3-methylindole. Biochem. Pharamcol., 34, 1117–1119.
LaCagnin, L.B., Connor, H.D., Mason, R.P., and Thurman, R.G. (1988) The carbon dioxide anion radical adduct in the perfused rat liver: Relationship to halocarbon-induced toxicity. Mol. Pharmacol., 33, 351–357.
Lai, E.K., McCay, P.B., Noguchi, T., and Fong, K.-L. (1979)In vivospin-trapping of trichloromethyl radicals formed from CCI4. Biochem. Pharmacol., 28, 2231–2235.
Lloyd, S.S., Chang, A.K., Taylor, Jr., F.B., Janzen, E.G., and McCay, P.B. (1993) Free radicals and septic shock in primates: The role of tumor necrosis factor. Free Radical Biol. Med., 14, 233–242.
Maples, K.R., Jordan, S.J., and Mason, R.P. (1988a)In vivorat hemoglobin thiyl free radical formation following phenylhydrazine administration. Mol. Pharmacol., 33, 344–350.
Maples, K.R., Jordan, S.J., and Mason, R.P. (1988b)In vivorat hemoglobin thiyl free radical formation following administration of phenylhydrazine and hydrazine-based drugs. Drug Metab. Dispos., 16, 799–803.
Maples, K.R., Eyer, P., and Mason, R.P. (1990a) Aniline-, phenylhydroxylamine-, nitrosobenzene-, and nitrobenzene-induced hemoglobin thiyl free radical formationin vivoandin vitro.Mol. Pharmacol., 37, 311–318.
Maples, K.R., Kennedy, C.H., Jordan, S.J., and Mason, R.P. (1990b)In vivothiyl free radical formation from hemoglobin following administration of hydroperoxides. Arch. Biochem. Biophys., 277, 402–409.
Mason, R.P. and Knecht, K.T. (1994)In vivodetection of radical adducts by electron spin resonance. Methods Enzymol., 233, 112–117.
Mason, R.P. (1996)In vitroandin vivodetection of free radical metabolites with electron spin resonance. In Free Radicals: A Practical Approach. (Punchard, N.A. and Kelly, F.J., eds.) pp. 11–24, Oxford University Press, New York.
Mason, R.P. (2000)In vivospin trapping — from chemistry to toxicology. InToxicology of the Human EnvironmentRhodes, C., ed.) PP. 49–70, Taylor and Francis, London
McCay, P.B., Lai, E.K., Poyer, J.L., Dubose, C.M., and Janzen, E.G. (1984) Oxygen-and carbon-centered free radical formation during carbon tetrachloride metabolism. observation of lipid radicalsin vivoandin vitro.J. Biol. Chem., 259, 2135–2143.
Moore, D.R., Reinke, L.A., and McCay, P.B. (1995) Metabolism of ethanol to 1hydroxyethyl radicalsin vivo:Detection with intravenous administration of a-(4-pyridyl1-oxide)-N-t-butylnitrone. Mol. Pharmacol., 47, 1224–1230.
Murphy, P.G., Myers, D.S., Webster, N.R., Jones, J.G., and Davies, M.J. (1991) Direct detection of free radical generation in anin vivomodel of acute lung injury. Free Radical Res. Comms., 15, 167–176.
Paolini, M., Sapigni, E., Mesirca, R., Pedulli, G.F., Corongiu, F.P., Dessi, M.A., and CantelliForti, G. (1992) On the hepatoxicity of 1,1,2,2-tetrachloroethane. Toxicology, 73, 101–115.
Plummer, J.L., Beckwith, A.L.J., Phil, D., Bastin, F.N., Adams, J.F., Cousins, M.J., and Hall, P. (1982) Free radical formationin vivoand hepatoxicity due to anesthesia with halothane. Anesthesiology, 57, 160–166.
Poyer, J.L., McCay, P.B., Lai, E.K., Janzen, E.G., and Davis, E.R. (1980) Confirmation of assignment of the trichloromethyl radical spin adduct detected by spin trapping during13C-carbon tetrachloride metabolismin vitroandin vivo.Biochem. Biophys. Res. Comms., 94, 1154–1160.
Poyer, J.L., McCay, P.B., Weddle, C.C., and Downs, P.E. (1981)In vivospin-trapping of radicals formed during halothane metabblism. Biochem. Pharmacol., 30, 1517–1519.
Reinke, L.A., Lai, E.K., DuBose, C.M., and McCay, P.B. (1987) Reactive free radical generationin vivoin heart and liver of ethanol-fed rats: Correlation with radical formationin vitro.Proc. Natl. Acad. Sci. USA, 84, 9223–9227.
Reinke, L.A., Lai, E.K., and McCay, P.B. (1988) Ethanol feeding stimulates trichloromethyl radical formation from carbon tetrachloride in liver. Xenobiotica, 18, 1311–1318.
Reinke, L.A., and Janzen, E.G. (1991) Detection of spin adducts in blood after administration of carbon tetrachloride to rats, Chem.-Biol. Interact., 78, 155–165.
Reinke, L.A., Kotake, Y., McCay, P.B., and Janzen, E.G. (1991) Spin-trapping studies of hepatic free radicals formed following the acute administration of ethanol to rats: In vivo detection of 1-hydroxyethyl radicals with PBN. Free Radical Biol. Med., 11, 31–39.
Reinke, L.A., Towner, R.A., and Janzen, E.G. (1992) Spin trapping of free radical metabolites of carbon tetrachloridein vitroandin vivo:Effect of acute ethanol administration. Toxicol. Appl. Pharmacol., 112, 17–23.
Reinke, L.A., Moore, D.R., and McCay, P.B. (1997) Free radical formation in livers of rats treated acutely and chronically with alcohol. Alcoholism: Clin. Exp. Res., 21, 642–646.
Reinke, L.A., and McCay, P.B. (1997) Spin trapping studies of alcohol-initiated radicals in rat liver: Influence of dietary fat. J. Nutr., 127, 899S–902S.
Rikans, L.E., Hornbrook, K.R., and Cai, Y. (1994) Carbon tetrachloride hepatoxicity as a function of age in female Fischer 344 rats. Mech. Ageing Dev., 76, 89–99.
Sentjurc, M., and Mason, R.P. (1992) Inhibition of radical adduct reduction and reoxidation of the corresponding hydroxylamines in in vivo spin trapping of carbon tetrachloride-derived radicals. Free Radical Biol. Med., 13, 151–160.
Stoyanovsky, D.A., and Cederbaum, A.I. (1998) ESR and HPLC-EC analysis of ethanol oxidation to 1-hydroxyethyl radical: Rapid reduction and quantification of POBN and PBN nitroxides. Free Radical Biol. Med., 25, 536–545.
Stoyanovsky, D.A., Wu, D.F., and Cederbaum, A.I. (1998) Interaction of 1-hydroxyethyl radical with glutathione, ascorbic acid, and alpha-tocopherol. Free Radical Biol. Med., 24, 132–138.
Tomasi, A., Albano, E., Biasi, F., Slater, T.F., Vannini, V., and Dianzani, M.U. (1985) Activation of chloroform and related trihalomethanes to free radical intermediates in isolated hepatocytes and in the rat in vivo as detected by the ESR-spin trapping technique. Chem.-Biol. Interact., 55, 303–316.
Ueda, Y., Yokoyama, H., Niwa, R., Konaka, R., Ohya-Nishiguchi, H., and Kamada, H. (1997) Generation of lipid radicals in the hippocampal extracellular space during kainic acid-induced seizure in rats. Epilepsy Res., 26, 329–333.
Vincent, R., Janzen, E.G., Chen, G., Kumarathasan, P., Haire, D.L., Guenette, J., Chen, J.Z., and Bray, T.M. (1996) Spin trapping study in the lungs and liver of F344 rats after exposure to ozone. Free Radical Res., 25, 475–488.
Xu, Z. and Bray, T.M. (1994) Electron spin resonance spin trapping studies of the effects of dietary zinc deficiency on free radical productionin vitroandin vivounder acute oxidative stress. J. Nutr. Biochem., 5, 490–494.
Yamaguchi, K.T., Stewart, R.J., Wang, H.M., Hudson, S.E., Vierra, M., Akhtar, A., Hoffman, C., and George, D. (1992) Measurement of free radicals from smoke inhalation and oxygen exposure by spin trapping and ESR spectroscopy. Free Radical Res. Comms., 16, 167–174.
Yokoyama, H., Kasai, N., Ueda, Y., Niwa, R., Konaka, R., Mori, N., Tsuchihashi, N., Matsue, T., Ohya-Nishiguchi, H., and Kamada, H. (1998) In vivo analysis of hydrogen peroxide and lipid radicals in the striatum of rats under long-term administration of a neuroleptic. Free Radical Biol. Med., 24, 1056–1060.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2003 Springer Science+Business Media New York
About this chapter
Cite this chapter
Mason, R.P., Kadiiska, M.B. (2003). Ex Vivo Detection of Free Radical Metabolites of Toxic Chemicals and Drugs by Spin Trapping. In: Berliner, L.J. (eds) In Vivo EPR (ESR). Biological Magnetic Resonance, vol 18. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-0061-2_12
Download citation
DOI: https://doi.org/10.1007/978-1-4615-0061-2_12
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4613-4906-8
Online ISBN: 978-1-4615-0061-2
eBook Packages: Springer Book Archive