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Xenobiotica
the fate of foreign compounds in biological systems
Volume 28, 1998 - Issue 9
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Research Article

Hydrogen atom abstraction of 3,5-disubstituted analogues of paracetamol by horseradish peroxidase and cytochrome P450

J. G. M. BESSEMS Leiden} Amsterdam Center for Drug Research, Department of Pharmacochemistry, Vrije Universiteit, De Boelelaan 1083, 1081 HV Amsterdam, The Netherlands
,
M. J. de GROOT Leiden} Amsterdam Center for Drug Research, Department of Pharmacochemistry, Vrije Universiteit, De Boelelaan 1083, 1081 HV Amsterdam, The Netherlands
,
E. J. BAEDE Leiden} Amsterdam Center for Drug Research, Department of Pharmacochemistry, Vrije Universiteit, De Boelelaan 1083, 1081 HV Amsterdam, The Netherlands
,
J. M. te KOPPELE Leiden} Amsterdam Center for Drug Research, Department of Pharmacochemistry, Vrije Universiteit, De Boelelaan 1083, 1081 HV Amsterdam, The Netherlands
&
N. P. E. VERMEULEN Leiden} Amsterdam Center for Drug Research, Department of Pharmacochemistry, Vrije Universiteit, De Boelelaan 1083, 1081 HV Amsterdam, The Netherlands
Pages 855-875 | Published online: 22 Sep 2008

References

  • ALBANO, E., RUNDGREN, M., HARVISON, P. J., NELSON, S. D. and MOLDE'US, P., 1985, Mechanisms of N-acetyl-p-benzoquinone imine cytotoxicity. Molecular Pharmacology, 28, 306–311.
  • BESSEMS J. G. M., GAISSER, H. D., TE KOPPELE, J. M., VAN BENNEKOM, W. P., COMMANDEUR, J. N. M. and VERMEULEN, N. P. E., 1995, 3,5-Disubstituted analogues of paracetamol. Synthesis, analgesic activity and cytotoxicity. Chemko- Biological Interactions, 98, 237–250.
  • BESSEMS J. G. M., SCHEFFERS, M., TE KOPPELE, J. M., COMMANDEUR, J. N. M. and VERMEULEN N. P. E., Rapid purification of rat liver microsomal CYP1A1 and CYP1E2 based on FPLC with high performance Q-Sepharose and S-Sepharose columns (in preparation).
  • BESSEMS J. G. M., TE KOPPELE, J. M., VAN DUK, P. A., VAN STEE, L. L. P., COMMANDEUR, J. N. M. and VERMEULEN, N. P. E., 1996, Rat liver microsomal cytochrome P450-dependent oxidation of 3,5-disubstituted analogues of paracetamol. Xenobiotka, 26, 647–666.
  • BESSEMS J. G. M., VAN STEE, L. L. P., COMMANDEUR, J. N. M., GROOT, E. J. and VERMEULEN, N. P. E., 1997, Cytotoxicity of paracetamol and 3,5-dihalogenated analogues. Role of cytochrome P-450 and formation of GSH conjugates and protein adducts. Toxicology in Vitro, 11, 9–19.
  • BINXLEY, J. S., POPLE, J. A. and HEHRE, W. J., 1980, Self consistent molecular orbital methods. 21. Small split-valence basis sets for first-row elements. Journal of the American Chemical Society, 102, 939–947.
  • MACK, S., SVALANDER, C. T. and AURELL, M., 1988, Acute renal failure after analgesic drugs including paracetamol (acetaminophen). Nephron, 49, 45–53.
  • BURKE, M. D. and MAYER, R. T., 1975, Inherent specificities of purified cytochromes P-450 and P-448 toward biphenyl hydroxylation and ethoxyresorufin deethylation. Drug Metabolism and Dis-position, 3, 245–253.
  • COBDEN, I., RECORD, C. O., WARD, M. K. and KERR, B. N. S., 1982, Paracetamol-induced acute renal failure in the absence of fulminant liver damage. British Medical Journal, 284, 21–22.
  • CHEMICAL DESIGN LTD, 1990, ChemX, v. January 1990 (Chipping Norton).
  • DAHLIN, D. C., MIWA, G. T., Lu, A. Y. H. and NELSON S. D., 1984, N-acetyl-p-benzoquinone imine: a cytochrome P-450-mediated oxidation product of acetaminophen. Proceedings of the National Academy of Sciences, USA, 8, 1327–1331.
  • DE GROOT, M. J., DONNE.-OP DEN KELDER, G. M., COMMANDEUR, J. N. M., VAN LENTHE J. H. and VERMEULEN, N. P. E., 1995, Metabolite predicitons for para-substituted anisoles based on ab initio complete active space self-consistent field calculations. Chemical Research in Toxicology, 8, 437–443.
  • DE VRIES, J., 1981, Hepatotoxic metabolite activation of paracetamol and its derivatives phenacetin and benorilate : oxygenation or electron transfer? Biochemical Pharmacology, 30, 399–402.
  • DEARDEN, J. C. and O'HARA, J. H., 1978, Partition coefficients of some alkyl derivatives of 4 acetamidophenol. European journal of Medicinal Chemistry — Chimica Therapeutica, 13, 415–419.
  • DUPUIS, M., SPANGLER, D. and WENDOLOSKI, J., 1980, NRCC Software Catalogue. Program No. Q GO1 (GAMESS).
  • FISCHER, V., HARMAN, L. S., WEST, P. R. and MASON, R. P., 1986, Direct electron spin resonance detection of free radical intermediates during the peroxidase catalyzed oxidation of phenacetin metabolites. Chemko-Biological Interactions, 60, 115–127.
  • FISCHER, V. and MASON, R. P., 1984, Stable free radical and benzoquinone imine metabolites of an acetaminophen analogue. Journal of Biological Chemistry, 259, 10284–10288.
  • FISCHER, V., WEST, P. R., HARMAN, L. S. and MASON, R. P., 1985, Free-radical metabolites of acetaminophen and a dimethylated derivative. Environmental Health Perspectives, 64, 127–137.
  • FRISCH, M. J., POPLE, J. A. and BINKLEY, J. S., 1984, Self consistent molecular orbital methods. 25. Supplementary functions for gaussian basis sets. Journal of Chemical Physics, 80, 3265–3269.
  • GOEPTAR, A. R., TE KOPPELE, J. M., LAMME, E. K., PIQUE, J. M. and VERMEULEN, N. P., 1993, Cytochrome P450 2B1-mediated one-electron reduction of adriamycin: a study with rat liver microsomes and purified enzymes. Molecular Pharmacology, 44,1267–1277.
  • GORDON, M. S., BINKLEY, J. S., POPLE, J. A., PIETRO, W. J. and HEHRE, W. J., 1982, Self consistent molecular orbital methods. 22. Small split-valence basis sets for second-row elements. Journal of the American Chemical Society, 104, 2797–2803.
  • GUEST, M. F., FANTUCCI, P., HARRISON, R. J., KENDRICK, J., VAN LENTHE J. H., SCHOEFFEL, K. and SHERWOOD, P., 1993, GAMESS -UK, IBM RS6000 v. 2.1 (CFS Ltd).
  • HEHRE, W. J., DITCHFIELD, R., STEWART, R. F. and POPLE, J. A., 1970, Self consistent molecular orbital methods. IV. Use of Gaussian expansions of Slater-type atomic orbitals. Extensions to second-row molecules. Journal of Chemical Physics, 52, 2769–2773.
  • HEHRE, W. J., STEWART, R. F. and POPLE, J. A., 1969, Self consistent molecular orbital methods. I. Use of Gaussian expansions of Slater-type atomic orbitals. Journal of Chemical Physics, 51, 2657–2664.
  • HELLER, C. and MCCONNELL, H. M., 1960, Radiation damage in organic crystals. II. Electron spin resonance of (CO2H)CH2CH(CO2H) in )3-succinic acid. Journal of Chemical Physics, 32, 1535–1539.
  • HINSON, J. A., POHL, L. R., MONKS, T. J. and GILETTE, J. R., 1981, Minireview : Acetaminophen-induced hepatotoxicity. Life Sciences, 29, 107–116.
  • JoLLow, D. J., THORGEIRSSON, S. S., POTTER, W. Z., HASHIMOTO, M. and MITCHELL, J. R., 1974, Acetaminophen-induced hepatic necrosis. VI. Metabolic disposition of toxic and nontoxic doses of acetaminophen. Pharmacology, 12, 251–271.
  • JOSEPHY, P. D., ELING, T. E. and MASON, R. P., 1983, Oxidation of p-aminophenol catalyzed by horseradish peroxidase and prostaglandin synthase. Molecular Pharmacology, 23, 461–466.
  • Juin, U., BLum, J. K., BUTTE, W. and WITTE, I., 1991, The induction of DNA strand breaks and formation of semiquinone radicals by metabolites of 2,4,5-trichlorophenol. Free Radical Research Communications, 11, 295–305.
  • KELLER, R. J. and HINSON, J. A., 1991, Mechanism of acetaminophen-stimulated NADPH oxidation catalyzed by the peroxidase-H202 system. Drug Metabolism and Disposition, 19, 184–187.
  • KOBAYASHI, K., HAYASHI, K. and Swallow, A. J., 1990, Reactions of the NAD radical with higher oxidation states of horseradish peroxidase. Biochemistry, 29, 2080–2084.
  • KOHDA, K., NAKAGAWA, T. and KAWAZOE, Y., 1990, Singlet oxygen takes part in 8-hydroxydeoxy-guanosine formation in deoxyribonucleic acid treated with the horseradish peroxidase-H202 system. Chemical Pharmaceutical Bulletin, 38, 3072–3075.
  • KOOP, D. R., 1986, Hydroxylation of p-nitrophenol by rabbit ethanol-inducible cytochrome P-450 isozyme 3a. Molecular Pharmacology, 29, 399–404.
  • KOYMANS, L., VAN LENTHE J. H., VAN DE STRAAT, R., DONNE.-OP DEN KELDER, G. M. and VERMEULEN N. P., 1989, A theoretical study on the metabolic activation of paracetamol by cytochrome P-450: indications for a uniform oxidation mechanism. Chemical Research in Toxicology, 2, 60–66.
  • METODIEWA, D., PIRES DE MELO, M., ESCOBAR, J., CILENTO, G. and DUNFORD, H., 1992, Horseradish peroxidase-catalyzed aerobic oxidation and peroxidation of indole-3-acetic acid. Archives of Biochemistry and Biophysics, 296, 27–33.
  • MOLDE'US, P., ANDERSSON, B., RAouvrruLA, A. and BERGGREN, M., 1982, Prostaglandin synthetase catalyzed activation of paracetamol. Biochemical Pharmacology, 31, 1363–1368.
  • NELSON, S. D., DAHLIN, D. C., RAUCKMAN, E. J., and ROSEN, G. M., 1981, Peroxidase-mediated formation of reactive metabolites of acetaminophen. Molecular Pharmacology, 20, 195–199.
  • POTTER, W. Z., DAVIS, D. C., MITCHELL, J. R., JoLLow, D. J., GILLETTE, J. R. and BRODIE, B. B., 1973, Acetaminophen-induced hepatic necrosis. III. Cytochrome P-450-mediated covalent binding in vitro. Journal of Pharmacological and Experimental Therapeutics, 187, 203–210.
  • POTTER, D. W. and HINSON, J. A., 1987, Mechanisms of acetaminophen oxidation to N-acetyl-p-benzoquinone imine by horseradish peroxidase and cytochrome P-450. Journal of Biological Chemistry, 262, 966–973.
  • PRESCOTT, L. F., 1980, Kinetics and metabolism of paracetamol and phenacetin. British Journal of Clinical Pharmacology, 10, 291S–298S.
  • RIETIENS, I. M., ANCHER, L. J. and VEEGER, C., 1989, On the role of phospholipids in the reconstituted cytochrome P-450 system. A model study using dilauroyl and distearoyl glycerophosphocholine. European Journal of Biochemistry, 181, 309–316.
  • ROSEN, G. M., SINGLETARY, W. V., JR, RAUCKMAN, E. J. and KILLENBERG, P. G., 1983, Acetaminophen hepatotoxicity. An alternative mechanism. Biochemical Pharmacology, 32, 2053–2059.
  • Ross, D., LARSSON, R., ANDERSSON, B., NILSSON, U., LINDQUIST, T., LINDEKE, B. and MOLDE.US, P., 1985, The oxidation of p-phenetidine by horseradish peroxidase and prostaglandin synthase and the fate of glutathione during such oxidations. Biochemical Pharmacology, 34, 343–351.
  • SANDLER, D. P., SMITH, J. C., WEINBERG, C. R., BUCKALEW, V. M., JR, DENNIS, V. W., BLYTHE, W. B. and BURGESS, W. P., 1989, Analgesic use and chronic renal disease. New England Journal of Medicine, 320, 1238–1243.
  • SAYO, H. and SAITO, M., 1990, Ethyl hydroperoxide-dependent metabolism of N,N-dimethyl-p-anisidine catalyse by lactoperoxidase. Xenobiotka, 20, 247–253.
  • STEWART, J. J. P. and SEILER, F. J., 1990, MOPAC 6.00 (Colorado Springs: Research Laboratory United States Air Force Academy).
  • STOLZE, K. and MASON, R. P., 1991, ESR spectroscopy of flow-oriented cation radicals of phenothiazine derivatives and phenoxatiin intercalated in DNA. Chemico-Biological Interactions, 77, 283–289.
  • STONE, A. J., 1981, Distributed multipole analysis, or how to describe a molecular charge distribution. Chemical Physical Letters, 83, 233–239.
  • THOMPSON, D., NORBECK, K., OLSSON, L. I., CONSTANTIN -TEODOSIU, D., VAN DER ZEE, J. and MOLDEUS P., 1989, Peroxidase-catalyzed oxidation of eugenol: formation of a cytotoxic metabolite(s). Journal of Biological Chemistry, 264, 1016–1021.
  • VALOTI, M., SIPE, H. J., SCARAGLI, G. and MASON, R. P., 1989, Free radical intermediates during peroxidase oxidation of 2-t-butyl-4-methoxyphenol, 2,6-di-t-butyl-4-methylphenol, and related phenol compounds. Archives of Biochemistry and Biophysics, 269, 423–432.
  • VAN DE STRAAT, R., DE VRIES, J., KULKENS, T., DEBETS, A. J. J. and VERMEULEN, N. P. E., 1986, Paracetamol, 3-monoalkyl- and 3,5-dialkyl derivatives. Comparison of their microsomal cyto-chrome P-450 dependent oxidation and toxicity in freshly isolated hepatocytes. Biochemical Pharmacology, 35, 3693–3699.
  • VAN DE STRAAT, R., DE VRIES, J. and VERMEULEN, N. P. E., 1987, Role of hepatic microsomal and purified cytochrome P-450 in one-electron reduction of two quinone imines and concomitant reduction of molecular oxygen. Biochemical Pharmacology, 36, 613–619.
  • VAN DE STRAAT, R., VROMANS, R. M., BOSMAN, P., DE VRIES, J. and VERMEULEN, N. P. E., 1988, Cytochrome P-450-mediated oxidation of substrates by electron-transfer; role of oxygen radicals and of 1- and 2-electron oxidation of paracetamol. Chemico-Biological Interactions, 64, 267–280.
  • WERTZ, J. E. and BOLTON, J. R., 1972, Electron Spin Resonance: Elementary Theory and Practical Applications (New York: McGraw-Hill).
  • WEST, P. R., HARMAN, L. S., JosEPfor, P. D. and MASON, R. P., 1984, Acetaminophen: enzymatic formation of a transient phenoxyl free radical. Biochemical Pharmacology, 33, 2933–2936.

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