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Xenobiotica
the fate of foreign compounds in biological systems
Volume 24, 1994 - Issue 6
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Research Article

Irreversible binding of tolmetin to macromolecules via its glucuronide: Binding to blood constituents, tissue homogenates and subcellular fractions in vitro

J. C. Ojingwa Department of Pharmacy, University of California, San Francisco, CA, 94143-0446, USA
,
H. Spahn-Langguth Department of Pharmacy, University of California, San Francisco, CA, 94143-0446, USA
&
L. Z. Benet Department of Pharmacy, University of California, San Francisco, CA, 94143-0446, USA
Pages 495-506 | Received 01 Mar 1993, Published online: 22 Sep 2008

References

  • Ammon R. The enzymatic cleavage of several pharmaceutical esters. Arzneimittel-Forschung 1977; 27: 944–949
  • Benet L. Z., Spahn-Langguth H. Acyl migration and covalent binding of drug glucuronides. Potential toxicity mediators. Cellular and Molecular Aspects of Glucuronidation, G. Siest, J. Magdalou, B. Burchell. INSERM/John Libbey Eurotext, Montrouge 1988; 261–269
  • Brownlee M., Cerami A., Vlassara H. Advanced glycosylation end products in tissue and the biochemical basis of diabetic complications. New England Journal of Medicine 1988; 318: 1315–1321
  • Ding A., Ojingwa J. C., McDonagh A., Burlingame A. L., Benet L. Z. Evidence for the covalent binding of acyl glucuronides to serum albumin via an imine mechanism as revealed by tandem mass spectrometry. Proceedings of the National Academy of Sciences, USA 1993; 90: 3797–3801
  • Dodge J. T., Mitchell C., Hanahan D. J. The preparation and chemical characteristics of hemoglobin-free ghosts of human erythrocytes. Archives Biochemica Biophysica 1963; 100: 119–130
  • Faed E. M. Properties of acyl glucuronides: implications for studies of the pharmacokinetics and metabolism of acidic drugs. Drug Metabolism Reviews 1984; 15: 1213–1249
  • Farb D., Jencks W. P. Different forms of pig liver esterase. Archives Biochemica Biophysica 1980; 203: 214–226
  • Garlick R. L., Mazer J. S. The principal site of nonenzymatic glycosylation of human serum albumin in vivo. Journal of Biological Chemistry 1983; 258: 6142–6146
  • Hyneck M. L., Munafo A., Benet L. Z. Effect of pH on acyl migration and hydrolysis of tolmetin glucuronide. Drug Metabolism and Disposition 1988; 16: 322–324
  • Hyneck M. L., Smith P. C., Unseld E., Benet L. Z. HPLC determination of tolmetin, tolmetin glucuronide and its isomeric conjugates in plasma and urine. Journal of Chromatography 1987; 420: 349–356
  • Iwakawa S., Spahn H., Benet L. Z., Lin E. T. Stereoselective binding of the glucuronide conjugates of carprofen enantiomers to human serum albumin. Biochemical Pharmacology 1990; 39: 949–953
  • King A. R., Dickinson R. G. Studies of the reactivity of acyl glucuronides—IV. Covalent binding of diflunisal to tissues of the rat. Biochemical Pharmacology 1993; 45: 1043–1047
  • Kuhn D., Heymann E. Identification of the chloramphenicol-hydrolyzing enzyme of guinea pig liver as one of the nonspecific carboxylesterases. Biochemical Pharmacology 1982; 31: 781–786
  • Leinweber F. J. Possible physiological roles of carboxylic ester hydrolases. Drug Metabolism Reviews 1987; 18: 379–439
  • Lowry O. H., Rosebrough N. J., Farr A. L., Randall R. J. Protein measurement with Folin phenol reagent. Journal of Biological Chemistry 1951; 193: 265–275
  • Main A. R., Rush R. S. Hydrolysis of choline esters by rabbit liver oligomeric and monomeric carboxylesterases (EC 3.1.1.1). Journal of Biological Chemistry 1980; 255: 7168–7171
  • Medine V. A., Donohue T. M., Sorrell M. F., Tuma D. J. Covalent binding of acetaldehyde to hepatic proteins during ethanol oxidation. Journal of Laboratory and Clinical Medicine 1985; 105: 5–10
  • Munafo A., McDonagh A. F., Smith P. C., Benet L. Z. Irreversible binding of tolmetin glucuronic acid esters to albumin in vitro. Pharmaceutical Research 1990; 8: 21–27
  • Ojingwa J., Spahn H., Benet L. Z. Studies of tolmetin reversible and irreversible binding to proteins via its glucuronic acid conjugate. Pharmaceutical Research 1988; 5: S-214, (Suppl.)
  • Pohl L. R., Branchflower R. V. Covalent binding of electrophilic metabolites to macromolecules. Methods in Enzymology, W. Jakoby. Academic, New York 1981; Vol. 77: 43–51
  • Ruelius H. W., Kirkman S. K., Young E. M., Janssen F. W. Reactions of oxaprozin-1-O-acyl glucuronide in solutions of human plasma and albumin. Biological Reactive Intermediates, J. J. Kocsis, D. J. Jollow, C. M. Witmer, J. O. Nelson, R. Snyder. Plenum, New York 1985; 431–441, 111
  • Sallustio B. C., Knights K. M., Roberts B. I., Zachest R. In vivo covalent binding of clofibric acid to human plasma proteins and rat liver proteins. Biochemical Pharmacology 1991; 42: 1421–1425
  • Smith P. C. Disposition and covalent binding of acyl glucuronides: studies with zomepirac glucuronide. PhD thesis, University of California, San Francisco 1985
  • Smith P. C., Benet L. Z., McDonagh A. F. Covalent binding of zomepirac glucuronide to proteins: evidence for a Schiff base mechanism. Drug Metabolism and Disposition 1990; 18: 639–644
  • Smith P. C., McDonagh A. F., Benet L. Z. Irreversible binding of zomepirac to plasma protein in vitro and in vivo. Journal of Clinical Investigation 1986; 77: 934–939
  • Spahn-Langguth H., Benet L. Z. Acyl glucuronides revisited: is the glucuronidation process a toxification as well as a detoxification mechanism?. Drug Metabolism Reviews 1992; 24: 5–48
  • Tesseromatis C., Fichtl B., Kurz H. Binding of nonsteroidal anti-inflammatory drugs and warfarin to liver tissue of rabbits in vitro. European Journal of Drug Metabolism and Pharmacokinetics 1987; 12: 161–167
  • Van Breemen R. B., Fenselau C. C. Electrophilic reactions of acyl-linked glucuronides. Federation Proceedings 1984; 43: 360
  • Van Breemen R. B., Fenselau C. C. Acylation of albumin by 1-O-acyl glucuronides. Drug Metabolism and Disposition 1985; 13: 318–320
  • Wells D. S., Janssen F. W., Ruelius H. W. Interactions between oxaprozin glucuronide and human serum albumin. Xenobiotica 1987; 17: 1437–1449
  • Wildfener A. Action of anti-rheumatic drugs on the function of human leukocytes. Arzneimittel Forschung/Drug Research 1983; 33: 780–783

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