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Drug Metabolism Reviews Volume 16, 1985 - Issue 1-2
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Research Article

Metabolism, Mutagenicity, and DNA Binding of Biphenyl-Based Azodyes

Carl N. Martin Cancer Research Unit University of York York Y01 5DD, United Kingdom
&
James C. Kennelly Cancer Research Unit University of York York Y01 5DD, United Kingdom
Pages 89-117 | Published online: 22 Sep 2008

References

  • Scott T. S. The incidence of bladder tumours in a dyestuffs factory. Br. J. Ind. Med. 1952; 9: 127–132
  • Case R. A. M., Hosker M. E., McDonald D. B., Pearson J. T. Tumours of the urinary bladder in workmen engaged in the manufacture and use of certain dye-stuff intermediates in the British chemical industry. Part 1. The role of aniline, benzidine, 1-naphthylamine and 2-naphthylamine. Br. J. Ind. Med. 1954; 11: 75–96
  • Goldwater L. J., Rosso A. J., Kleinfeld M. Bladder tumours in a coal tar dye plant. Arch. Environ. Health 1965; 11: 814–817
  • Mancuso T. F., El Attar A. A. Cohort study of workers exposed to beta-naphthylamine and benzidine. J. Occup. Med. 1967; 9: 277–288
  • Spitz S., Maguigan W. H., Dobriner K. The carcinogenic action of benzidine. Cancer (Philad.) 1950; 3: 789–804
  • Haley T. J. Benzidine revisited: A review of the literature and problems associated with the use of benzidine and its congeners, Clin. Toxicol. 1975; 8: 13–42
  • Morton K. C., Wang C. Y., Garner C. D., Shirai T. Carcinogenicity of benzidine, N,N'-diacetylben-zidine and N-hydroxy-N,N'-diacetylbenzidine for female CD rats. Carcinogenesis 1981; 2: 747–752
  • Nelson C. J., Baetcke K. P., Frith C. H., Kodell R. L., Schieferstein G. The influence of sex, dose, time, and cross on neoplasia in mice given benzidine dihydro-chloride. Toxicol. Appl. Pharmacol. 1982; 64: 171–186
  • Society of Dyers and Colourists3rd Ed. BradfordUK 1971, Colour Index, (P.O. Box 224, Perkin House, 82 Grattan Road)
  • Fuller A. T. Is p-aminobenzene sulphonamide the active agent in protocol therapy?. Lancet 1937; 232: 194–198
  • Hernandez P. H., Gillette J. R., Mazel P. Studies on the mechanism of action of mammalian hepatic azore-ductase. 1. Azo-reductase activity of reduced nicotinamide adenine dinucleotide phosphate-cytochrome reductase. Biochem. Pharmacol. 1967; 16: 1859–1875
  • Walker P. Reduction of water soluble azo dyes by intestinal bacteria, Food. Cosmet. Toxicol. 1970; 8: 659–662
  • Jones F., Patterson D., Srinivasan D. The determination of free benzidine in dyes. J. Soc. Dyers Colourists 1980; 96: 628–631
  • Zenser T. V., Mattamal M. B., Armbrecht H. J., Davis B. B. Benzidine binding to nucleic acids mediated by the peroxidative activity of prostaglandin endoperoxide synthetase. Cancer Res. 1980; 40: 2839–2845
  • Rice J. R., Kissinger P. T. Co-oxidation of benzidine by horseradish peroxidase and subsequent formation of possible thioether conjugates of benzidine. Bio-chem. Biophys. Res. Commun. 1980; 104: 1312–1318
  • Wise R. W., Zenser T. V., Davis B. B. Prostaglandin H synthase metabolism of the urinary bladder carcinogens benzidine and ANFT. Carcinogenesis 1983; 4: 285–289
  • Josephy P. D., Mason R. P., Eling T. Chemical structure of the adducts formed by the oxidation of benzidine in the presence of phenols. Carcinogenesis 1982; 3: 1227–1230
  • Clayson D. B., Ward L. The fate of benzidine in various species. Acta Unio Int. Contra Cancrum 1959; 15: 581–586
  • Booth J., Boyland E. The biochemistry of aromatic amines. 10. Enzymic N-hydroxylation of arylamines and conversion of arylhydroxylamines into o-aminophenols. Biochem. J. 1964; 91: 362–369
  • Troll W., Belman S., Rinde E. N-hydroxy acetyl-amino compounds, urinary metabolites of aromatic amines in man (abstract), Proc. Am. Assoc. Cancer Res. 1963; 4: 68
  • Morton K. C., King C. M., Baetcke K. P. Metabolism of benzidine to N-hydroxy-N,N'-diacetylbenzidine and subsequent nucleic acid binding and mutagenicity. Cancer Res. 1979; 39: 3107–3113
  • Morton K. C., Beland F. A., Evans F. E., Fullerton N. F., Kadlubar F. F. Metabolic activation of N-hy-droxy-N,N'-diacetylbenzidine by hepatic sulfotransferase. Cancer Res. 1980; 40: 751–757
  • Martin C. N., Ekers S. F. Studies on the macro-molecular binding of benzidine. Carcinogenesis 1980; 1: 101–109
  • Martin C. N., Beland F. A., Roth R. W., Kadlubar F. F. Covalent binding of benzidine and N-acetyl-benzidine to DNA at the C-8 atom of deoxyguanosine in vivo and in vitro. Cancer Res. 1982; 42: 2678–2686
  • Martin C. N., Beland F. A., Kennelly J. C., Kadlubar F. F. Binding of benzidine, N-acetylbenzidine, N.N'-diacetylbenzidine and Direct Blue 6 to rat liver DNA. Environmental Health Perspec 1983; 49: 101–106
  • Kennelly J. C., Beland F. A., Kadlubar F. F., Martin C. N. Binding of N-acetylbenzidine and N,N-diacetylbenzidine to hepatic DNA of rat and hamster in vivo and in vitro. Carcinogenesis 1984; 5: 407–412
  • Kennelly J. C., Stanton C. A., Martin C. N. The effect of acetyl-CoA supplementation on the mutagenicity of benzidines in the Ames assay. Mutat. Res. 1984; 137: 39–45
  • Martin C. N., Kennelly J. C. Rat liver microsomal azoreductase activity on four azo dyes derived from benzidine, 3,3′-dimethylbenzidine or 3,3′-dimethoxybenzidine. Carcinogenesis 1981; 2: 307–312
  • Bos R. P., van Doom R., van de Yih E., Hurk P. J., van Gemert L., Henderson P. Th. Comparison of the mutagenecities of 4-aminobiphenyl and benzidine in the Salmonella/microsome, Salmonella/hepatocyte and host mediated assays. Mutat. Res. 1982; 93: 317–325
  • Waalkens D. H., Joosten H. F. P., Yih T. D., Hoekstra A. Mutagenicity studies with o-tolidine and 4,4′-tetramethyldiaminodiphenylmethane. Mutat. Res. 1981; 89: 197–200
  • Martin C. N., McDermid A. C., Garner R. C. Testing of known carcinogens and non-carcinogens for their ability to induce unscheduled DNA synthesis in HeLa cells. Cancer Res. 1978; 38: 2621–2627
  • Tanaka K., Mii T., Marui S., Matsubara I., Igaka H. Mutagenicity of urinary metabolites of benzidine and benzidine-based azo dyes. Int. Arch. Occup. Environ. Health 1981; 49: 177–185
  • Garner R. C., Walpole A. L., Rose F. L. Testing of some benzidine analogues for microsomal activation to bacterial mutagens. Cancer Lett. 1975; 1: 39–42
  • Ashby J., Styles J., Callander R. D. Comparative activity of 4,4′-diaminobiphenyl (benzidine) and its ter-phenyl analogue 4,4′-diaminoterphenyl, in two in vitro assays for potential carcinogenicity. Carcinogenesis 1980; 1: 801–802
  • Lazear E. J., Louie S. C. Mutagenicity of some congeners of benzidine in the Salmonella typhimurium assay systems. Cancer Lett. 1977; 4: 21–25
  • Jenssen D., Ramel C. The micronucleus test as part of a short-term mutagenicity test program for the prediction of carcinogenicity evaluated by 143 agents tested. Mutat. Res. 1980; 75: 191–202
  • Sina J. F., Bean C. L., Dysart G. R., Taylor V. I., Bradley M. O. Evaluation of the alkaline elution/rat hepatocyte assay as a predictor of carcinogenic/mutagenic potential, Mutat. Res. 1983; 113: 357–391
  • Prival M. S., Mitchell V. D. Analysis of a method for testing azodyes for mutagenic activity in Salmonella typhiraurium in the presence of flavin mononucleotide and hamster liver S9. Mutat. Res. 1982; 97: 103–116
  • Brown J. P., Roehm G. W., Brown R. J. Mutagenicity testing of certified food colors and related azo, xanthene and triphenylmethane dyes with the Salmonella/ microsome system. Mutat. Res. 1978; 56: 249–271
  • Hartman C. P., Fulk G. F., Andrews A. W. Azo reduction of trypan blue to a known carcinogen by a cell-free extract of a human intestinal anaerobe. Mutat. Res. 1978; 58: 125–132
  • Brown J. P. Reduction of polymeric azo and nitro dyes by intestinal bacteria, Appl. Environ. Microbiol. 1981; 41: 1283–1286
  • Chung K. T., Fulk G. E., Egan M. Reduction of azodyes by intestinal anaerobes. Appl. Environ. Microbiol. 1976; 35: 558–562
  • Fujita S., Peisach J. The stimulation of microsomal azoreduction by flavins. Biochim. Biophys. Acta 1982; 719: 178–189
  • Sugimura T., Nagao M., Kawachi T., Honda M., Yahagi T., Seino Y., Sato S., Matsukura N., Matsuoshima N., Shirai A., Sawamura M., Matsumoto H. Mutagens-carcinogens in food with special reference to the highly mutagenic pyrolytic products in broiled foods. Origins of Human Cancer, Book C, H. H. Hiatt, J. D. Watson, J. A. Winsten. Cold Spring Harbor Laboratory. 1977; 1561–1567
  • Venturini S., Tamaro M. Mutagenicity of anthro-quinone and azo dyes in Ames Salmonella typhimurium test. Mutat. Res. 1979; 68: 307–312
  • Robertson J. A., Harris W. J., McGregor D. B. Mutagenicity of azo dyes in the Salmonella/activation test. Carcinogenesis 1982; 3: 21–25
  • Brown J. P., Dietrich P. S. Mutagenicity of selected sulphonated azodyes in the Salmonella/microsome assay: Use of aerobic and anaerobic activation procedures. Mutat. Res. 1983; 116: 305–315
  • Garner R. C., Nutman C. A. Testing of some azo dyes and their reduction products for mutagenicity using Salmonella typhimurium TA1538. Mutat. Res. 1977; 44: 9–19
  • Chung K. -T., Fulk G. E., Andrews A. A. Mutagenicity testing of some commonly used dyes, Appl. Environ. Microbiol. 1981; 42: 641–648
  • Combes R. D., Haveland-Smith R. B. A review of the genotoxicity of food drug and cosmetic colours and other azo triphenylmethane and xanthene dyes. Mutat. Res. 1982; 98: 101–248
  • Boeniger M. F., Stein H. P., Chandray G., Neumeister C. E. Residual benzidine in imported and domestic benzidine dyes. Toxicol. Lett. 1981; 9: 415–420
  • Kennelly J. C., Hertzog P. J., Martin C. N. The release of 4,4′-diaminobiphenyls from azodyes in the rat. Carcinogenesis 1982; 3: 947–951
  • Lazear E. J., Shaddock J. G., Barren P. R., Louie S. C. The mutagenicity of some of the proposed metabolites of Direct Black 38 and Pigment Yellow 12 in the Salmonella typhimurium assay system. Toxicol. Lett. 1979; 4: 519–523
  • Fouts J. R., Kanum J. J., Brodie B. B. Enzymatic reduction of protosil and other azo dyes. J. Pharmacol. Exp. Ther. 1957; 120: 291–300
  • Radomski J. L. The absorption, fate and excretion of Citrus Red No. 2 (2,5-dimethoxyphenylazo-2-naphthol) and Ext. D&C Red No. 14 (l-xylylazo-2-naphthol). J. Pharmacol. Exp. Ther. 1961; 134: 100–109
  • Radomski J. L. 1-Amino-2-naphthylglucuronide, a metabolite of 2,5-dimethoxyphenylazo-2-naphthol and 1-xylylazo-2-naphthol. J. Pharmacol. Exp. Ther. 1962; 136: 378–385
  • Yoshida O. A study of the aetiology of urinary bladder tumours. Japan. J. Urol. 1973; 64: 707–712
  • Yoshida O., Miyakawa M. Etiology of bladder cancer: Metabolic aspects. Analytical and Experimental Epidemiology of Cancer, W. Nakahara, T. Hirohoma, K. Nishioka, et al. Univ. Park Press, Baltimore 1973; 31–39
  • Rinde E., Troll W. Metabolic reduction of benzidine azo dyes to benzidine in the Rhesus monkey. J. Natl. Cancer Inst. 1975; 55: 181–182
  • Cerniglia C. E., Freeman J. P., Franklin W., Pack L. D. Metabolism of benzidine and benzidine-congener based dyes of human, monkey and rat intestinal bacteria. Biochem. Biophys. Res. Commun. 1982; 107: 1224–1229
  • Cerniglia C. E., Freeman J. P., Franklin W., Pack L. D. Metabolism of azo dyes derived from benzidine, 3,3′-dimethylbenzidine and 3,3′-dimethoxybenzidine to potentially carcinogenic aromatic amines by intestinal bacteria. Carcinogenesis 1982; 3: 1255–1260
  • Nony C. R., Bowman M. C. Trace analysis of potentially carcinogenic metabolites of an azo-dye and pigment in hamster and human urine as determined by two chromatographic procedures. J. Chromatogr. Sci. 1980; 18: 64–74
  • Nony C. R., Bowman M. C., Cairns T., Lowry L. K., Tolos W. P. Metabolism studies of an azo-dye and pigment in the hamster based on analysis of the urine for potentially carcinogenic aromatic amine metabolites. J. Anal. Toxicol. 1980; 4: 132–140
  • Lowry L. K., Tolos W. P., Boeniger M. F., Nony C. R., Bowman M. C. Chemical monitoring of urine from workers potentially exposed to benzidine-derived azo dyes. Toxicology Lett. 1980; 7: 29–36
  • Bowman M. C., Oiler N. L., Nony C. R., Rowland K. L., Billedau S. M., Lowry L. K. Metabolism and distribution of two 14C-benzidine-congener-based dyes in rats as determined by GC, HPLC and radioassays. J. Anal. Toxicol. 1982; 6: 164–174
  • Nony C. R., Althaus J. R., Bowman M. C. Chromatographic assays for traces of potentially carcinogenic metabolites of two azo dyes, Direct Red 2 and Direct Blue 15, in rat, hamster and human urine. J. Anal. Toxicol. 1983; 7: 40–48
  • Nony C. R., Martin J. L., Bowman M. C. Metabolism of a dimetriylbenzidine-based dye in rats and hamsters as determined by analysis of the urine for potentially carcinogenic aromatic amines. J. Anal. Toxicol. 1983; 7: 49–53
  • Bowman M. C., Nony C. R., Billedau S. M., Martin J. L., Thompson H. C. Metabolism of nine benzi-dine-congener-based dyes in rats based on gas chromatographic assays of the urine for potentially carcinogenic metabolites. J. Anal. Toxicol. 1983; 7: 55–60
  • Robens J. F., Dill G. S., Ward J. M., Joiner J. R., Griesemer R. A., Douglas J. F. Thirteen-week sub-chronic toxicity studies of Direct Blue 6, Direct Black 38 and Direct Brown 95 dyes. Toxicol. Appl. Pharmacol. 1980; 54: 431–442
  • Hartwell J. L. Survey of compounds which have been tested for carcinogenic activity2nd Ed. Compound No. 975, PHS Publ. No. 149, U.S. Government Printing Office, Washington, DC 1951
  • U.S. Department of Health, Education, and Welfare. Public Health Service and National Institutes of Health, Survey of compounds which have been tested for carcinogenic activity. Compound No. 369, DHEW Publ. No. (NIH)73–453; PHS Publ. No. 149, U.S. Government Printing Office, Washington, DC 1970–1971
  • IARC Monographs on the Evaluation of Carcinogenic Risk. IARC, World Health Organisation, Lyon 1975; 267–274
  • Kennelly J. C., Shaw A., Martin C. N. Reduction to benzidine is not necessary for the covalent binding of a benzidine azodye to rat liver DNA. Toxicology 1984; 32: 315–324

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