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Research Article

Search for Compounds That Inhibit the Genotoxic and Carcinogenic Effects of Heterocyclic Aromatic Amines

Christina E. Schwab Institute of Cancer Research, University of Vienna, Borschkegasse 8a, A-1090 Vienna, Austria
,
Wolfgang W. Huber Institute of Cancer Research, University of Vienna, Borschkegasse 8a, A-1090 Vienna, Austria
,
Wolfram Parzefall Institute of Cancer Research, University of Vienna, Borschkegasse 8a, A-1090 Vienna, Austria
,
Gerhard Hietsch Institute of Cancer Research, University of Vienna, Borschkegasse 8a, A-1090 Vienna, Austria
,
Fekadu Kassie Institute of Cancer Research, University of Vienna, Borschkegasse 8a, A-1090 Vienna, Austria
,
Rolf Schulte-Hermann Institute of Cancer Research, University of Vienna, Borschkegasse 8a, A-1090 Vienna, Austria
&
Siegfried Knasmüller Institute of Cancer Research, University of Vienna, Borschkegasse 8a, A-1090 Vienna, Austria
 show all
Pages 1-69 | Published online: 29 Sep 2008

References

  • Gebhard, E., Antimutagens: data and prob- lems, Humangenetik, 24, 1, 1974.
  • Nagao, M., Honda, M., Seino, Y., Yahagi, T., Kawachi, T., and Sugimura, T., Muta- genicities of protein pyrolysates, Cancer Lett., 2, 335, 1977.
  • Sugimura, T., Kawachi, T., Nagao, M., Yahagi, T., Seino, Y., Kamoto, T., Shudo, K., Kosuge, T., Tsuji, K., Wakabayashi, K., Iitaka, Y., and Itai, A., Mutagenic prin- ciple(s) in tryptophan and phenylalanine pyroly- sis products, Proc. Jpn. Acad. Sci., 53, 58, 1977.
  • Kada, T., Morita, K., and Inoue, T., Anti- mutagenic action of vegetable factor(s) on the mutagenic principle of tryptophan pyroly- sate, Mutat. Res., 53, 351, 1978.
  • Inoue, T., Morita, K., and Kada, T., Purifi- cation and properties of a plant desmutagenic factor for the mutagenic principle of trypto- phan pyrolysate, Agric. Biol. Chem., 45, 345, 1981.
  • Hatch, F. T., Knize, M. G., Moore, D. H., and Felton, J. S., Quantitative correlation of mutagenic and carcinogenic potencies for het- erocyclic amines from cooked foods and addi- tional aromatic amines, Mutat. Res., 271, 269, 1992.
  • IARC, Some Naturally Occurring Substances: Food Items and Constituents. Heterocyclic Aro- matic Amines and Mycotoxins, Vol. 56, WHO, Lyon, France, 1993.
  • Starvic, B., Biological significance of trace levels of mutagenic heterocyclic amines in hu- man diet. A critical review, Fd. Chem. Toxi- col., 32, 977, 1994.
  • Layton, D. W., Bogen, K. T., Knize, M. G., Hatch, F. T., Johnson, V. M., and Felton, J. S., Cancer risk of heterocyclic amines in cooked foods: an analysis and implications for research, Carcinogenesis, 16, 39, 1995.
  • Yoshida, D. and Matsumoto, T., Changes in mutagenicity of protein pyrolysates by reac- tion with nitrite, Mutat. Res., 58, 35, 1978.
  • Tsuda, M., Takahashi, Y., Nagao, M., Hirayama, T., and Sugimura, T., Inactiva- tion of mutagens from pyrolysates of tryp- tophan and glutamic acid by nitrite in acidic solution, Mutat. Res., 78, 331, 1980.
  • Hayatsu, H., Arimoto, S., Togawa, K., and Makita, M., Inhibitor of the ether extract of human feces on activities of mutagens: inhi- bition by oleic and linoleic acids, Mutat. Res., 81, 287, 1981.
  • Hayatsu, H., Arimoto, S., and Negishi, T., Dietary inhibitors of mutagenesis and car- cinogenesis, Mutat. Res., 202, 429, 1988.
  • Kato, T., Takahashi, S., and Kikugawa, K., Loss of heterocyclic amine mutagens by in- soluble hemicellulose fiber and high-molecu- lar-weight soluble polyphenolics of coffee, Mutat. Res., 246, 169, 1991.
  • Arimoto-Kobayashi, S., Sugiyama, C., Harada, N., Takeuchi, M., Takemura, M., and Hayatsu, H., Inhibitory effects of beer and other alcoholic beverages on mutagen- esis and DNA adduct formation induced by several carcinogens, J. Agric. Food Chem., 47, 221, 1999.
  • Apostolides, Z., Balentine, D. A., Harbowy, M. E., and Weisburger, J. H., Inhibition of 2-amino-1-methyl-6-phenylimidazo[4,5- b]pyridine (PhIP) mutagenicity by black and green tea extracts and polyphenols, Mutat. Res., 359, 159, 1996.
  • Stavric, B., Matula, T. I., Klassen, R., and Downie, R. H., The effect of teas on the in vitro mutagenic potential of heterocyclic aromatic amines, Fd. Chem. Toxicol., 34, 515, 1996.
  • Bu-Abbas, A., Nunez, X., Clifford, M. N., Walker, R., and Ioannides, C., A compari- son of the antimutagenic potential of green, black and decaffeinated teas: contribution of flavanols to the antimutagenic effect, Mu- tagenesis, 11, 597, 1996.
  • Yen, G-C. and Chen, H-Y., Antioxidant ac- tivity of various tea extracts in relation to their antimutagenicity, J. Agric. Fd. Chem., 43, 27, 1995.
  • Hernaez, J. F., Xu, M., and Dashwood R. H., Antimutagenic activity of tea toward 2-hydroxyamino-3-methylimidazo[4,5-f] quinoline: effect of tea concentration and brew time on electrophile scavenging, Mutat Res., 402, 299, 1998.
  • Xu, M., Bailey, A. C., Hernaez, J. F., Taoka, C. R., Schut, H. A. J., and Dashwood, R. H., Protection by green tea, black tea, and indole- 3-carbinol against 2-amino-3-methyl-imidazo- [4,5-f]quinoline induced DNA adducts and colonic aberrant crypts in the rat, Carcino- genesis, 17, 1429, 1996.
  • Dashwood, R. H., Xu, M., Hernaez, J. F., Hasanya, N., Youn, K., and Razzuk, A., Cancer chemopreventive mechanisms of tea against heterocyclic amine mutagens from cooked meat, Proc. Soc. Exp. Biol. Med., 220, 239–243, 1999. Arimoto-Kobayashi, S., Inada, N., Nakano, H., Rai, H., and Hayatsu, H., Iron-chloro- phyllin-mediated conversion of 3-hydroxy- amino-1-methyl-5H-pyrido[4,3-b]indole (Trp- P-2(NHOH)) into its nitroso derivative, Mutat. Res., 400, 259, 1998.
  • Edenharder, R., Leopold, C., and Kries, M., Modifying actions of solvent extracts from fruit and vegetable residues on 2-amino-3- methylimidazo[4,5-f]quinoline (IQ) and 2- amino-3,4-dimethylimidazo[4,5-f]quinoxaline (MeIQx) induced mutagenesis in Salmonella typhimurium TA 98, Mutat. Res., 341, 303, 1995.
  • Yamaguchi, T., Inhibitory activity of heat- treated vegetables and indigestible polysac- carides on mutagenicity, Mutat. Res., 284, 205, 1992.
  • Morita, K., Kada, T., and Namiki, M., A desmutagenic factor isolated from burdock (Arc- tium lappa Linne), Mutat. Res., 129, 25, 1984.
  • Stich, H. F., The beneficial and hazardous effects of simple phenolic compounds, Mutat. Res., 259, 307, 1991.
  • Zhang, Y. and Talalay, P., Anticarcinogenic activities of organic isothiocyanates: chemis- try and mechanisms, Cancer Res., 54, 1976, 1994.
  • Hecht, S. S., Chemoprevention by isothiocy- anates, J. Cell. Biochem., Suppl. 22, 195, 1995.
  • Huber, W. W., McDaniel, L. P., Kaderlik, K. R., Teitel, C.H., Lang, N. P., and Kadlubar, F. F., Chemoprotection against the formation of colon DNA adducts from the food-borne carcinogen 2-amino-l-methyl-6- phenylimidazo[4,5-b]pyridine (PhIP) in the rat, Mutat. Res., 376, 115, 1997.
  • Morotomi, M. and Mutai, M., In vitro bind- ing of potent mutagenic pyrolysates to intes- tinal bacteria, J. Natl. Cancer Inst., 77, 195, 1986.
  • Reddy, B. S. and Rivenson, A., Inhibitory effect of Bifidobacterium longum on colon, mam-mary, and liver carcinogenesis induced by 2-amino-3-mehtylimidazo[4,5-f]quinoline, a food mutagen, Cancer Res., 53, 3914, 1993.
  • Hosoda, M., Hashimoto, H., Morita, H., Chiba, M., and Hosono, A., Studies on antimutagenic effects of milk cultured with lactic acid bac- teria on the Trp-P-2-induced mutagenicity to TA98 strain of Salmonella typhimurium, J. Dairy Res., 59, 543, 1992.
  • Orrhage, K., Sillerström, E., Gustafsson, J.-A., Nord, C. E., and Rafter, J., Binding of mutagenic heterocyclic amines by intesti- nal and lactic acid bacteria, Mutat. Res., 311, 239, 1994.
  • Sreekumar, O. and Hosono, A., The hetero- cyclic amine binding receptors of Lactobacil- lus gasseri cells, Mutat. Res., 421, 65, 1998.
  • Lankaputhra, W. E. V. and Shah, N. P., Antimutagenic properties of probiotic bacte- ria and of organic acids, Mutat. Res., 397, 169, 1998.
  • Kobayashi, M., Shinmoto, H., Tsushida, T., and Tokuda, S., Antimutagenic effect of several commercial milks on Trp-P-2 induced mutagenicity to Salmonella typhimurium TA98, Int. J. Fd. Sci. Technol., submitted, 2000.
  • Nishioka, H., Nishi, K., and Kyokane, K., Human saliva inactivates mutagenicity of car- cinogens, Mutat. Res., 85, 323, 1981.
  • Nishioka, H. and Nunoshiba, T., Role of en- zymes in antimutagenesis, in Antimutagenesis and Anticarcinogenesis, Mechanisms, Vol. 39, Shankel, D. M., Hartmann, P. E., Kada, T., and Hollaender, A., Eds., London, Plenum Press, New York, 1985, 143.
  • Morita, K., Hara, M., and Kada, T., Studies on natural desmutagens: screening for veg- etable and fruit factors active in inactivation of mutagenic pyrolysis products from amino acids, Agric. Biol. Chem., 42, 1235, 1978.
  • Edenharder, R., Kerkhoff, G., and Dunkelberg, H., Effects of vitamins and related compounds on sister-chromatid exchanges (SCEs) induced by 2-amino-1-methyl-5H-pyrido[4,3-b]indole (Trp-P-2) and cyclophosphamide (CPA) in hu- man lymphocytes, in Abstracts of the 4th Inter- national Conference on Antimutagenesis and Anticarcinogenesis, Barclay, B. J. and von Borstel, R. C., Eds., Banff, Canada, The Genet- ics Society of Canada, 1994, 39.
  • Shinohara, K., Kuroki, S., Miwa, M., Kong, Z-L., and Hosoda, H., Antimutagenicity of dialyzates of vegetables and fruits, Agric. Biol. Chem., 52, 1369, 1988.
  • Rauscher, R., Edenharder, R., and Platt, K. L., In vitro antimutagenic and in vivo anti- clastogenic effects of carotenoids and solvent extracts from fruits and vegetables rich in caro- tenoids, Mutat. Res., 413, 129, 1998.
  • Botting, K. J., Young, M. M., Pearson, A. E., Harris, P. J., and Ferguson, L. R., Antimuta- gens in food plants eaten by Polynesians: mi- cronutrients, phytochemicals, and protection against bacterial mutagenicity of the hetero- cyclic amine 2-amino-3-methylimidazo[4,5-f] quinoline, Food Chem.Toxicol., 37, 95, 1999.
  • Schwab, C. E., Kassie, F., Qin, H. M., Sanyal, R., Uhl, M., Hietsch, G., Rabot, S., Darroudi, F., and Knasmüller, S., Develop- ment of test systems for the detection of com- pounds that prevent the genotoxic effects of heterocyclic amines: preliminary results with constituents of cruciferous vegetables and other dietary constituents, J. Environ. Pathol. Toxicol. Oncol., 18, 109, 1999.
  • Kassie, F., Qin, H. M., Rabot, S., and Knasmüller, S., Protection of organspecific genotoxic effects of 2-amino-3-methylimi- dazo[4,5-f] quinoline (IQ) by benzylisothiocy- anate (BITC), glucotropaeolin (GT) and garden cress juice in in vivo single cell gel electro- phoresis (SCGE) assays with primary rat hepatocytes and colonocytes, Neoplasma, 46(Suppl.), 41, 1999.
  • Uenobe, F., Nakamura, S., and Miyazawa, M., Antimutagenic effect of resveratrol against Trp-P-1, Mutat. Res., 373, 197, 1997.
  • Vinitketkumnuen, U., Puatanachokchai, R., Kongtawelert, P., Lertprasertsuke, N., and Matsushima, T., Antimutagenicity of lemon grass (Cymbopogon citratus Stapf) to various known mutagens in Salmonella mutation as- says, Mutat. Res., 341, 71, 1994.
  • Uehara, N., Iwahori, Y., Asamoto, M., Baba- Toryama, H., Iigo, M., Ochiai, M., Nagao, M., Nakayama, M., Degawa, M., Matsumoto, K., Hirono, I., Beppu, H., Fujita, K., and Tsiuda, H., Decreased levels of 2-amino-3- methylimidazo [4,5-f] quinoline DNA adducts in rats treated with β-carotene, -tocopherol and freeze-dried aloe, Jpn. J. Cancer Res., 87, 342, 1996.
  • Tsuda, H., Matsumoto, K., Ito, M., I., H., H., B., Fujita, K., and Nagao, N., Inhibitory effect of Aloe aborescens Miller var. Berger (Kitochi aloe) on induction of preneoplastic focal lesions in the rat liver, Phytother. Res., 7, 43, 1993.
  • Natake, M., Kanazawa, K., Mizuno, M., Ueno, N., Kobayashi, T., Danno, G., and Miamoto, S., Herb water extracts markedly suppress the mutagenicity of Trp-P-2, Agric. Biol. Chem., 53, 1423, 1989.
  • Morita, K., Purification and properties of desmutagenic factor from broccoli (Brassica olerancea var. italica plenck) for mutagenic principle of tryptophan pyrolysate, J. Fd. Safety, 4, 139, 1982.
  • Sato, M., Sato, T., Ose, Y., Nagase, H., Kito, H., and Sakai, Y., Modulating effect of tanshinones on mutagenic activity of Trp-P-1 and benzo[a]pyrene in Salmonella typhimu- rium, Mutat Res., 265, 149, 1992.
  • Sone, H., Terashita, T., and Shishiyama, J., Isolation and identification of antimutagens from eggplant, in Abstracts of the 4th Inter- national Conference on Antimutagenesis and Anticarcinogenesis, Barclay, B. J. and Van Borstel, R. C., Eds., Banff, Canada, The Ge- netics Society of Canada, 1994, 48.
  • Chen, H-Y. and Yen, G-C., Possible mecha- nisms of antimutagens by various teas as judged by their effects on mutagensesis by 2- amino-3-methylimidazo[4,5-f]quinoline and benzo[a]pyrene, Mutat. Res., 393, 115, 1997.
  • Weisburger, J. H., Arrigale, R., and Reinhart, L., Inhibition by tea and tea polyphenols of mutagenicity and DNA repair by heterocyclic arylamines, Proc. Am. Assoc. Cancer Res., 34, 124, 1993.
  • Apostolides, Z. and Weisburger, J. H., Screening of tea clones for inhibition of PhIP mutagenicity, Mutat. Res., 326, 219, 1995.
  • Weisburger, J. H., Dolan, L., and Pittman, B., Inhibition of PhIP mutagenicity by caf- feine, lycopene, daidzein, and genistein, Mutat Res., 416, 125, 1998.
  • Bu-Abbas, A., Nunez, X., Clifford, M. N., Walker, R., and Ioannides, C., Marked antimutagenic potential of aqueous green tea extracts: mechanism of action, Mutagenesis, 9, 325, 1994.
  • Okai, Y. and Higashi-Okai, K., Potent sup- pressing activity of the non-polyphenolic frac- tion of green tea (Camellia sinensis) against genotoxin-induced umu C gene expression in Salmonella typhimurium (TA 1535/pSK 1002) — association with pheophytins a and b, Cancer Lett., 120, 117, 1997.
  • Yen, G-C. and Chen, H-Y., Relationship between antimutagenic activity and major components of various teas, Mutagenesis, 11, 37, 1996.
  • Zhang, X. B. and Ohta, Y., Antimutagenic- ity and binding of lactic acid bacteria from a Chinese cheese to mutagenic pyrolyzates, J. Dairy Sci., 73, 2702, 1990.
  • Zhang, X. B. and Ohta, Y., Antimutagenic- ity of cell fractions of microorganisms on potent pyrolysate mutagens, Mutat. Res., 298, 247, 1993.
  • Zhang, X. B. and Ohta, Y., Anticlastogenic and bio-antimutagenic activity of cultured broth of Saccharomyces cerevisiae 28 on mutagens, Mutat. Res., 300, 201, 1993.
  • Jenq, S. N., Tsai, S-J., and Lee, H., Antimu- tagenicity of Maillard reaction products from amino acid/sugar model systems against 2- amino-3-methylimidazo-[4,5-f]quinoline: the role of pyrazines, Mutagenesis, 9, 483, 1994.
  • Yen, G-C., Tsai, L-C., and Lii, J.-D., Anti- mutagenic effect of Maillard browning prod- ucts obtained from amino acids and sugars, Fd. Chem. Toxic., 30, 127, 1992.
  • Yen, G-C., Chau, C-F., and Lii, J.-D., Iso- lation and characterization of the most anti- mutagenic Maillard reaction products derived from xylose and lysine, J. Agric. Food. Chem., 41, 771, 1993.
  • Kim, S. B., Hayase, F., and Kato, H., Desmutagenic effects of melanoidins against amino acid and protein pyrolysates, Dev. Fd. Sci., 13, 383, 1986.
  • Kato, H., Kim, S. B., Hayase, F., and Nguyen, V. C., Desmutagenicity of melanoi- dins against mutagenic pyrolysates, Agric. Biol. Chem., 49, 3093, 1985.
  • Tsuda, M., Wakabayashi, K., Hirayama, T., Kawachi, T., and Sugimura, T., Inacti- vation of potent pyrolysate mutagens by chlo- rinated tap water, Mutat. Res., 119, 27, 1983.
  • Plewa, M. J., Wagner, E. D., Berhow, M. A., Canway, A., Raburn, A. L., and Anderson, D., Antimutagenic activity of chemical frac- tions isolated from a commercial soybean processing byproduct, Teratogen. Carcino- gen. Mutagen., 19, 121, 1999.
  • Caderni, G., Lodovici, M., Salvadori, M., Bianchini, F., and Dolara, P., Inhibition of the mutagenic activity of some heterocyclic dietary carcinogens and other mutagenic/car- cinogenic compounds by rat organ prepara- tions, Mutat. Res., 169, 35, 1986.
  • Schut, H. A. J., Effects of dietary menhaden oil on DNA adducts of the food mutagen 2- amino-3-methylimidazo[4,5-f]quinoline (IQ) in Fischer-344 rats, Anticancer Res., 13, 1517, 1993.
  • Malaveille, C., Hautefeuille, A., Brun, G., Vineis, P., and Bartsch, H., Substances in human urine that strongly inhibit bacterial mutagenicity of 2-amino-1-methyl-6-phe- nylimi-dazo[4,5-b]pyridine (PhIP) and related heterocyclic amines, Carcinogenesis, 13, 2317, 1992.
  • Malaveille, C., Hautefeuille, A., Pignatelli, B., Talaska, G., Vineis, P., and Bartsch, H., Dietary phenolics as antimutagens and inhibi- tors of tobacco-related DNA adduction in the urothelium of smokers, Carcinogenesis, 17, 2193, 1996.
  • Malaveille, C., Hautefeuille, A., Pignatelli, B., Talaska, G., Vineis, P., and Bartsch, H., Antimutagenic dietary phenolics as antigeno- toxic substances in urothelium of smokers, Mu- tat. Res., 402, 219, 1998.
  • Jankun, J., Selman, S. H., Swiercz, R., and Skrzypczak-Jankun, E., Why drinking green tea could prevent cancer, Nature, 387, 561, 1997.
  • Cao, Y. and Cao, R., Angiogenesis inhibited by drinking tea, Nature, 398, 381, 1999.
  • Kuroda, Y. and Hara, Y., Antimutagenic and anticarcinogenic activity of tea polyphenols, Mutat. Res., 436, 69, 1999.
  • Alldrick, A. J., Brennan-Craddock, W. E., and Rowland, I. R., Dietary caffeine reduces the genotoxicity of MeIQx in the host-medi- ated assay in mice, Nutr. Cancer, 24, 143, 1995.
  • Murray, B. P., Bobbis, A. R., de la Torre, R., Segura, J., and Davis, D. S., Inhibition of dietary mutagens activation by methylxan- thines, Biochem. Soc Trans., 16, 620, 1988.
  • Sanyal, R., Darroudi, F., Parzefall, W., Nagao, M., and Knasmüller, S., Inhibition of the genotoxic effects of heterocyclic amines in human-derived hepatoma cells by dietary bioantimutagens, Mutagenesis, 12, 297, 1997.
  • IARC, Coffee, Tea, Mate, Methylxanthines and Methylglyoxal, Vol. 51, WHO, Lyon, France, 1991.
  • Kihlmann, B. A., Caffeine and Chromo- somes, Elsevier, Amsterdam, 1977.
  • Apostolides, Z., Balentine, D. A., Harbowy, M. E., Hara, Y., and Weisburger, J. H., Inhibition of PhIP mutagenicity by catechins, and by theaflavins and gallate esters, Mutat. Res., 389, 167, 1997.
  • Kada, T., Inoue, T., and Namiki, M., Envi- ronmental desmutagens and antimutagens, in Environmental Mutagenesis and Plant Biol- ogy, Klekowski, E. J., Ed., Preaeger, New York, 1982, 711.
  • Hernaez, J., Xu, M., and Dashwood, R., Effects of tea and chlorophyllin on the muta- genicity of N-hydroxy-IQ: studies of enzyme inhibition, molecular complex formation, and degradation/scavenging of the active metabo- lites, Environ. Mol. Mutagen., 30, 468, 1997.
  • Hayatsu, H., Inada, N., Kakutani, T., Arimoto, S., Negishi, T., Mori, K., Okuda, T., and Sakata, I., Suppression of genotoxicity of carcinogens by (–)-epigallocatechin gal- late, Prev. Med., 21, 370, 1992.
  • Catterall, F., Copeland, E., Clifford, M. N., and Ioannides, C., Contribution of theaful- vins to the antimutagenicity of black tea, Mu- tagenesis, 13, 631, 1998.
  • Hirose, M., Iwata, S., Ito, E., Nihro, Y., Takahashi, S., Mizoguchi, Y., Miki, T., Satoh, T., Ito, N., and Shirai, T., Strong antimuta- genic activity of the novel lipophilic antioxi- dant 1-O-hexyl-2,3,5-trimethylhydroquinone against heterocyclic amine induced mutagen- esis in the Ames assay and its effect on meta- bolic activation of 2-amino-6-methyl-dipy- rido[1,2-a:3,2-d]imidazole (Glu-P-1), Carcinogenesis, 16, 2227, 1995.
  • Yamaguchi, T. and Nakagawa, K., Reduc- tion of induced mutability with xanthine- and imidazole-derivatives through inhibition of meta- bolic activation, Agric. Biol. Chem., 47, 1673, 1983.
  • Sarkar, D., Sharma, A., and Talukder, G., Chlorophyll and chlorophyllin as modifiers of genotoxic effects, Mutat. Res., 318, 239, 1994.
  • Negishi, T., Arimoto, S., Nashizaki, C., and Hayatsu, H., Inhibitory effect of chlorophyll on the genotoxicity of 3-amino-1-methyl-5H- DNA-adduct formation by chlorophyllin in Drosophila, Jpn. J. Cancer Res., 87, 325, 1996.
  • Sugiyama, C., Shinoda, A., Hayatsu, H., and Negishi, T., Inhibition of 2-amino-3,8- dimethyl-imidazo[4,5-f]quinoxaline-mediated
  • Dashwood, R. H., Protection by chlorophyl- lin against the covalent binding of 2-amino- 3-methylimidazo-[4,5-f]quinoline (IQ) to rat liver DNA, Carcinogenesis, 13, 113, 1992.
  • Guo, D. and Dashwood, R., Inhibition of 2- amino-3-imidazo[4,5-f]quinoline-DNA bind- ing in rats given chlorophyllin: dose response and time-course studied in the liver and co- lon, Carcinogenesis, 15, 763, 1994.
  • Guo, D., Schut, H. A. J., Davis, C. D., Snyderwine, E. G., Bailey, G. S. and Dashwood, R. H., Protection by chlorophyllin and indole- 3-carbinol against 2-amino-l-methyl-6-phe- nyl-imidazo[4,5-b]pyridine (PhIP)-induced DNA adducts and colonic aberrant crypts in the F344 rat, Carcinogenesis, 16, 2931, 1995.
  • Dashwood, R. and Guo, D., Inhibition of 2-amino-3-methylimidazo-[4,5-f]quinoline (IQ)-DNA binding by chlorophyllin: studies of enzyme inhibition and molecular complex formation, Carcinogenesis, 13, 1121, 1992.
  • Arimoto, S. and Hayatsu, H., Role of hemin in the inhibition of mutagenic activity of 3-amino-1-methyl-5H-pyrido[4,3-b]indole (Trp-P-2) and other aminazaarenes, Mutat. Res., 213, 217, 1989.
  • Barceló, S., Macé, K., Pfeifer, A. M. A., and Chipman, J. K., Production of DNA strand breaks by N-nitrosodimethylamine and 2-amino- 3-methylimdazo[4,5-f]quinoline in THLE cells expressing human CYP isoenzymes and inhi- bition by sulforaphane, Mutat. Res., 402, 111, 1998.
  • Watzl, B. and Leitzmann, C., Bioaktive Sub- stanzen in Lebensmitteln, Hippokrates Verlag, Stuttgart, Germany, 1995.
  • Schut, H. A. J. and Dashwood, R. H., Inhi- bition of DNA adduct formation of amino-l- methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) by dietary indole-3-carbinol (I3C) in the mammary gland, colon, and liver of the female F-344 rat, Ann. N.Y. Acad. Sci., 768, 210, 1995.
  • Dashwood, R., Indole-3-carbinol: anticarcino- gen or tumor ptromotor in Brassica vegetables, Chem. Biol. Interact., 110, 1, 1988.
  • Xu, M., Schut, H. A. J., Bjeldanes, L. F., amino-3-methylimidazo[4,5-f]quinoline to di- etary fibers, J. Natl. Cancer Inst., 70, 757, 1983.
  • Schut, H. A. J., Cummings, D. A., Smale, M. H. E., Josyula, S., and Friesen, M. D., DNA adducts of heterocyclic amines: forma- tion, removal and inhibition by dietary com- ponents, Mutat. Res., 376, 185, 1997.
  • He, Y. H., Smale, M. H. E., and Schut, H. A. J., Chemoprotective properties of indole-3- carbinol (I3C): inhibition of DNA-adduct for- mation of the dietary carcinogen 2-amino- 1methyl-6-phenylimidazo[4,5-f]pyridine (PhIP) in female F344 rats, Cell. <i>Biol. Biochem., 27 (Suppl.), 42, 1997.
  • Hamilton, S. M. and Teel, R. W., Effects of isothiocycanates on cytochrome P-450 1A1 and 1A2 activity and on the mutagenicity of het- erocyclic amines, Anticancer Res., 16, 3597, 1996.
  • Hirose, M., Hasegawa, R., Kimura, J., Akagi, K., Yoshida, Y., Tanaka, H., Miki, T., Satoh, T., Wakabayashi, K., Ito, N., and Shirai, T., Inhibitory effects of 1-O-hexyl-2,3,5-tri-methyl- hydroquinone (HTHQ), green tea catechins and other antioxidants on 2-amino-6-methyldipy- rido[1,2-a:3,2-d]imidazole (Glu-P-1)-induced rat hepatocar-cinogenesis and dose-dependent inhibition by HTHQ of lesion induction by Glu-
  • Sjödin, P. B., Neman, M. E., Nilsson, L., Asp, N-G. L., and Jägerstad, M. I., Binding of 14C-labeled food mutagens (IQ, MeIQ, MeIQx) by dietary fiber in vitro, J. Fd. Sci., 50, 1680, 1985.
  • Vikse, R., Bålsrud, M., and Klungsøyr, L., Reversible binding of the cooked food muta- gen MeIQx to lignin-enriched preparations from wheat bran, Fd. Chem. Toxicol., 30, 239, 1992.
  • Harris, P. J., Triggs, C. M., Roberton, A. M., Williams, D. E.,Bailey, G. S., and Watson, M. E., and Ferguson, L. R., The Dashwood, R. H., Inhibition of 2-amino-3-methyl-imidazo[4,5-f]quinoline DNA adducts by indole 3-carbinol: dose respone studies in the rat, Carcinogenesis, 18, 2149, 1997.
  • Ferguson, L. R. and Harris, P. J., Suberized plant cell walls suppress formation of hetero- cyclic amine-induced aberrant crypts in a rat model, Chem. Biol. Interact., in press, 1999.
  • Ferguson, L. R., Roberton, A. M., Watson, M. E., Kestell, P., and Harris, P. J., The ab- sorption of a range of dietary carcinogens by -cellulose, a model insoluble dietary fiber, Mutat. Res., 319, 257, 1993.
  • Ferguson, L. R. and Harris, P. J., Studies on the role of specific dietary fibres in protec- tion against colorectal cancer, Mutat. Res., 350, 173, 1996.
  • Josyula, S. and Schut, H. A. J., Dietay omega-3-fatty acids as potential inhibitors of carcinogenesis: effect on DNA adducts forma- tion of 2-amino-1-methyl-phenyl-imidazo[4,5- b]pyridine (PhIP) in mice and rats, Fd. Chem. Toxicol., 37, 287, 1999.
  • Liew, C., Schut, H. A. J., Ching, S., Pariza, M. W., and Dashwood, R. H., Protection of conjugated linoleic acids against 2-amino-3- methylimidazo-[4,5-f]quinoline-induced colon carcinogenesis in the F344 rat: a study of inhibitory mechanisms, Carcinogenesis, 16, 3037, 1995.
  • Vereskuns, G., Wesén, C., Skog, K., and Jägerstad, M., Inhibitiory effect of threo-9,10- dichlorostearic acid on the mutagenic activity of MeIQx, 2-AF and B[a]P in the Ames/ Salmonella test, Mutat. Res., 416, 149, 1998.
  • Knasmüller, S., Beyene, F. K., Parzefall, E., and R., S. H., Influence of dietary factors on the genotoxic effects of cooked food muta- gens, Arch. Compl. Environ. Stud., 6, 75, 1994.
  • Brennan-Craddock, W. E., Coutts, T. M., R., R. I., and Alldrick, A. J., Dietary fat modi- fies the in vivo mutagenicity of some food borne carcinogens, Mutat. Res., 230, 49, 1990.
  • Ho, T. A., Coutts, T. M., Rowland, I. R., and Alldrick, A. J., Inhibition of the metabo- lism of mutagens occurring in food by arachi- donic acid, Mutat. Res., 269, 279, 1992.
  • Zu, H-X. and Schut, H. A. J., Inhibition of 2-amino-3-methylimidazo[4,5-f]quinoline- DNA adduct formation in CDF1 mice by heat- altered derivatives of linoleic acid, Fd. Chem. Toxicol., 30, 9, 1992.
  • Edenharder, R., von Petersdorff, I., and Rauscher, R., Antimutagenic effects of flavo- noids, chalcones and structurally related com- pounds on the activity of 2-amino-3-methyl- imidazo [4,5-f]quinoline (IQ) and other heterocyclic amine mutagens from cooked food, Mutat. Res., 287, 261, 1993.
  • Lee, H., Wang, H-W., Su, H-Y., and Hao, N. J., The structure-activity relationships of flavonoids as inhibitors of cytochrome P-450 enzymes in rat liver microsomes and the mu- tagenicity of 2-amino-3-methylimidazo[4,5- f]quinoline, Mutagenesis, 9, 101, 1994.
  • Anderson, D., Basaran, N., Dobrzynska, M. M., Basaran, A. A., and Yu, T-W., Modu- lating effects of flavonoids on food mutagens in human blood and sperm samples in the comet assay, Teratogen. Carcinog. Mutagen., 17, 45, 1997.
  • Anderson, D., Dobrzynska, M. M., and Yu, T-W., Modulating effects of silymarin and myricetin on food mutagens and doxorubicin in assays with different genetic endpoints, J. Environ. Pathol. Toxicol. Oncol., 16, 313, 1997.
  • Anderson, D., Dobrzynska, M. M., Basaran, N., Basaran, A., and Yu, T-W., Flavonoids modulate comet assay responses to food muta- gens in human lymphocytes and sperm, Mutat. Res., 402, 269, 1998.
  • Edenharder, R., Rauscher, R., and Platt, K. L., The inhibition by flavonoids of 2-amino- 3-methylimidazo-[4,5-f]quinoline metabolic activation to a mutagen: a structure-activity relationship study, Mutat. Res., 379, 21, 1997.
  • Alldrick, A. J., Flynn, J., and Rowland, I. R., Effects of plant derived flavonoids and poly- phenolic acids on the activity of mutagens from cooked food, Mutat. Res., 163, 225, 1986.
  • Ogawa, S., Hirayama, T., Fujioka, Y., Ozasa, S., Tokuda, M., Hirai, K., and Fukui, S., Mu- tagenicity modulation effect of quercetin on aromatic amines and acetamides, Mutat. Res., 182, 37, 1987.
  • Tsuda, H., Uehara, N., Iwahori, Y., M., A., Iigo, M., Nagao, M., Matsumoto, K., Ito, M., and Hirono, I., Chemopreventive effects of β-carotene and five naturally occurring antioxidants on initiation of hepatocarcinogenesis by 2-amino-3-methylimidazo [4,5-f]- quinoline in the rat, Jpn. J. Cancer Res., 85, 1214, 1994.
  • Ayrton, A. D., Lewis, D. F. V., Walker, R., and Ioannides, C., Antimutagenicity of el- lagic acid towards the food mutagen IQ: in- vestigation into possible mechanisms of ac- tion, Fd. Chem. Toxicol., 30, 289, 1992.
  • Okuda, T., Mori, K., and Hayatsu, H., Inhibi- tory effect of tannins on direct acting muta- gens, Chem. Pharm. Bull., 32, 3755, 1984.
  • Bu Abbas, A., Ioannides, D., and Walker, R., Evaluation of the antimutagenic potential of anthracene: in vitro and ex vivo studies, Mutat. Res., 309, 101, 1994.
  • Ayrton, A. D., Ioannides, C., and Walker, R., Anthraflavic acid inhibits the mutagenic- ity of the food mutagen IQ: mechanism of ac- tion, Mutat. Res., 207, 121, 1988.
  • Ayrton, A. D., Ioannides, C., and Walker, R., Induction of rat hepatic cytochrome P-450 I proteins by the antimutagen anthraflavic acid, Fd. Chem. Toxicol., 26, 909, 1988.
  • Hao, N. J., Huang, M-P., and Lee, H., Struc- ture-activity relationships of anthraquinones as inhibitors of 7-ethoxycoumarin O-deethylase and mutagenicity of 2-amino-3-methylimidazo mutagenicity of direct-acting compounds and procarcinogens, Carcinogenesis, 5, 505, 1984.
  • Kushi, A., Koiwai, A., Yoshida, D., and Goto, F., Effect of emodin on the mutagenicity of 3-amino-1-methyl-5H-pyrido[4,3-b]indol to- ward Salmonella, Agric. Biol. Chem., 44, 2513, 1980.
  • Suzui, N., Sugie, S., Wahidur Rahman, K. M., Ohnishi, M., Yoshimi, N., Wakabayashi, K., and Mori, H., Inhibitory effects of diallyl disulfide or aspirin on 2-amino-l-methyl-6- phenylimidazo[4,5-b]pyridine-induced mam- mary carcinogenesis in rats, Jpn. J. Cancer Res., 88, 705, 1997.
  • Tsai, S-J., Jenq, S. N., and Lee, H., Naturally occurring diallyl disulfide inhibits the forma- tion of carcinogenic heterocyclic aromatic amines in boiled pork juice, Mutagenesis, 11, 235, 1996.
  • Barcelo, S., Chipman, J. K., Gescher, A., Mace, K., and Pfeifer, A., Inhibition by sulforaphane of P450-mediated carcinogen activation, in 5th International Conference on Mechanisms of Antimutagenesis and Anticarcinogenesis, Hayatsu, H., Ed., Okayama, Japan, Okayama University, 1996, 41.
  • Ohta, T., Modification of genotoxicity by natu- rally occurring flavourings and their deriva- tives, Crit. Rev. Toxicol., 23, 127, 1993.
  • Abu-Shakra, A., Ioannides, C., and Walker, R., Effects of tryptamine on the mutagenic activities of 2-amino-3-methylimidazo[4,5-b] quinoline and related azaarenes in the Ames test, Mutagenesis, 1, 51, 1987.
  • Kong, Z-L., Shinohara, K., Mitsuiki, M., Murakami, H., and Omura, H., Desmutage- nicity of furan compounds towards some muta- gens, Agric. Biol. Chem., 53, 2073, 1989.
  • Mizuno, M., Toda, M., Ueno, N., Danno, G., Anazawa, K., and Natake, M., Desmuta- genicity of a dibenzofuran-quinone derivative toward the mutagenicity of Trp-P-2, Agric. Biol. Chem., 53, 959, 1989.
  • Hirose, M., Akagi, K., Hasegawa, R., Yaono, M., Satoh, T., Nihro, Y., Miki, T., Sugimura, T., and Ito, N., Strong inhibition of 2-amino- 6-methyldipyrido[1,2-a:3,2-d] imidazole in- duced mutagenesis and hepatocarcinognesis by 1-O-hexyl-2,3,5-trimethylhydroquinone, Jpn. J. Canc. Res., 84, 481, 1993.
  • Hirose, M., Akagi, K., Hasegawa, R., Yaono, M., Satoh, T., Hara, Y., Wakabayashi, K.,
  • De Flora, S., Bagnasco, M., and Vainio, H., Modulation of genotoxic and related effects by carotenoids and vitamin A in experimental models: mechanistic issues, Mutagenesis, 14, 153, 1999.
  • Busk, L., Ahlborg, U. G., and Albanus, L., Inhibition of protein pyrolysate mutagenicity by retinol (vitamin A), Fd. Chem. Toxicol., 20, 535, 1982.
  • Ioannides, C., Ayrton, A. D., A., K., Lewis, retinol, Mutagenesis, 5
  • Hasaniya, N., Youn, K., Xu, M., Hernaez, J., and Dashwood, R., Inhibitory activity of green and black tea in a free radical-generat- ing system using 2-amino-3-methylimi-dazo- [4,5-f]quinoline as substrate, Jpn. J. Cancer Res., 88, 553, 1997.
  • Saito, K., Yamazoe, Y., Kamataki, T., and Kato, R., Interactions between the active me- tabolite of tryptophan pyrolysate mutagen, N-hydroxy-Trp-P-2, and lipids: the role of lipid peroxides in the conversion of N-hydroxy- Trp-2 to non reactive forms, Chem. Biol. In- teract., 45, 295, 1983.
  • Huber, W. W., Teitel, C. H., King, R. S., McDaniel, L. P., Wiese, R., Harris, A., Mulder, G. J., Kadlubar, F. F., and Schulte- Hermann, R., Modification of the enzymes
  • De Flora, S., Camoirano, A., Cartiglia, C., and Fergusson, L., Modulation of the po- tency of promutagens and direct acting muta- gens in bacteria by inhibitors of the multidrug resistance mechanisms, Mutagenesis, 12, 431, 1997.
  • Skog, K. I., Johansson, M. A. E., and Jägerstad, M. I., Carcinogenic heterocyclic amines in model systems and cooked foods: A review on formation, occurrence and in- take, Fd. Chem. Toxicol., 36, 879, 1998.
  • Murkovic, M., Steinberger, D., and Pfannhauser, W., Spices reduce the content of heterocyclic aromatic amines in fried meat, Z. Lebensmittel-Untersuch. Forsch., 207, 477, 1998.
  • Dashwood, R., Yamane, S., and Larsen, R., Study of the forces stabilizing complexes be- tween chlorophylls and heterocyclic amine mu- tagens, Environ. Mol. Mutagen., 27, 211, 1996.
  • Zhang, X. B., Demuyakor, B., Asahara, N., and Ohta, Y., Binding of heterocyclic amines by yeast cells and their fractions, J. Sci. Food Agric., 57, 253, 1991.
  • Snyderwine, E. G., Wirth, P. J., Roller, P. P., Adamson, R. H., Sato, S., and Thorgeirsson, S. S., Mutagenicity and in vitro covalent DNA binding of 2-hydroxyamino-3-methylimi- dazo[4,5-f]quinoline, Carcinogenesis, 9, 411, 1988.
  • Hayes, J. D. and Pulford, D. J., The gluta- thione-S-transferase supergene family: regu- lation of GST and the contribution of the iso- enzymes to cancer chemoprotection and drug resistance, Crit. Rev. Biochem. Mol. Biol., 30,
  • Kim, D. J., Lee, K. K., Han, B. S., Ahn, B., Bae, J. H., and Jang, J. J., Biphasic modify- ing effect of indole-3-carbinol on dimethyl nitrosamine-induced preneoplastic glutathione S-transferase placental form positive liver cell foci in Sprague Dawley rats, Jpn. J. Cancer Res., 86 (578–583), 1994.
  • Chapman, H. A., Plasminogen activators, integrins, and the coordinated regulation of cell adhesion and migration, Curr. Opin. Cell Biol., 9, 714, 1997.
  • Wild, D., Gocke, E., Harnasch, D., Kaiser, G., and King, M-T., Differential mutagenic activity of IQ (2-amino-3-methylimidazo[4,5- f]quinoline) in Salmonella typhimurium strains in vitro and in vivo, in Drosophila, and in mice, Mutat. Res., 156, 93, 1985.
  • Knasmüller, S., H., K., W., H., and Schulte Hermann, R., Organ-specific distribution of genotoxic effects in mice exposed to cooked food mutagens, Mutagenesis, 7, 235, 1992.
  • Bolognani, F., Rumney, C. J., and Rowland, I. R., Influence of carcinogen binding by lactic acid producing batcteria on tissue distribution and in vivo mutagenicity of dietary carcino- gens, Fd. Chem.Toxicol., 35, 535, 1997.
  • Pool-Zobel, B. L. and Leucht, U., Induction of DNA damage by risk factors of colon can- cer in human colon cells derived from biop- sies, Mutat. Res., 375, 105, 1997.
  • Sasaki, Y. F., Saga, A., Yoshida, K., Su, Y. Q., Ohta, T., Matsusaka, N., and Tsuda, S., Co- lon-specific genotoxicity of heterocyclic amines detected by the modified alkaline single cell gel electrophoresis assay of multiple mouse organs, Mutat. Res., 414, 9, 1998.
  • Pfau, W., Brockstedt, U., Shirai, T., Ito, N., and Marquardt, H., Pancreatic DNA adducts formed in vitro and in vivio by the food muta- gens 2-amino-1-methyl-6-phenyl-imidazo[4,5- b]pyridine (PhIP) and 2-amino-3-methyl-9H- pyrido[2,3-b]indole (MeAC), Mutat. Res., 378, 13, 1997.
  • Ochiai, M., Ishida, K., Ushijima, T., Suzuki, T., Sofuni, T., Sugimura, T., and Nagao, M., DNA adduct level induced by 2-amino-3,4- dimethylimidazo[4,5-f]-quinoline in Big Blue™ mice does not correlate with mutagenicity, Mu- tagenesis, 13, 381, 1998.
  • Brooks, R. A., Gooderham, N. S., Zhao, K., Edwards, R. J., Howard, L. A., Boobis, A. R., and Winton, D. J., 2-Amino-1-me- thyl-6-phenylimidazo[4,5-b]pyridine is a po- tent mutagen in the mouse small intestine, Can- cer Res., 54, 1665, 1994.
  • Lynch, A. M., Gooderham, N. S., and Boobis, A. R., Organ distinctive mutagenicity in Muta™ mouse after short-term exposure to PhIP, Muta- genesis, 5, 505, 1996.
  • Ryu, D-Y., Weidner, V. S., Davis, C. D., Schut, H. A. J., Thorgeisson, S. S., and Snyderwine, E. G., In vivo mutagenicity and hepatocarci- nogenicity of 2-amino-3,8-dimethylimidazo- [4,5-f]quinoxaline in transgenic C57BI/lacZ (MutaTMMice) and double transgenic c-myc/ lacZ mice, in Heterocyclic Amines, Interna- tional Workshop on Analytical, Chemical, and Biological Relevance of Heterocyclic Aromatic Amines, April <i>23–24, Pfannhauser, W., Ed., Graz, Austria, Austrian Chemical Society, 1998, 24.
  • Okonogi, H., Ushijima, T., Zhang, X. B., Heddle, J. A., Suzuki, T., Sofuni, T., Felton, J. S., Tucker, J. D., Sugimura, T., and Nagao, M., Agreement of mutational characteristics of heterocyclic amines in lacI of the Big Blue mouse with those in tumor related genes in rodents, Carcinogenesis, 18, 745, 1997.
  • Suzuki, T., Hayashi, M., Ochiai, M., Wakabayashi, K., Ushijima, T., Sugimura, T., Nagao, M., and Sofuni, T., Organ varia- tion in the mutagenicity of MeIQ in Big Blue™ lacI transgenic mice, Mutat. Res., 369, 45, 1996.
  • Grant, D. M., Josephy, P. D., Lord, H. L., and Morrison, L. D., Salmonella typhimu- rium strains expressing human arylamine N-acetyltransferases: metabolism and mu- tagenic activation of aromatic amines, Can- cer Res., 52, 3961, 1992.
  • Wild, D., Feser, W., Michel, S., Lord, H. L., and Josephy, P. D., Metabolic activation of heterocyclic aromatic amines catalyzed by human arylamine N-acetyltransferase isozymes (NAT1 and NAT2) expressed in Salmonella typhimurium, Carcinogenesis, 16, 643, 1995.
  • Watanabe, M., Ishidate, J. M., and Nohmi, T., Sensitive method for the detection of mu- tagenic nitroarenes and aromatic amines: new derivatives of Salmonella typhimurium tester strains possessing elevated O-acetyltransferase levels, Mutat. Res., 234, 337, 1990.
  • Coroneos, E. and Sim, E., Arylamine N-acetyl- transferase activity in human cultured cell lines, Biochem. J., 294, 481, 1993.
  • Wakabayashi, K., Ushiyama, H., Takahashi, M., Nukaya, H., Kim, S-B., Hirose, M., Ochiai, M., Sugimura, T., and Nagao, M., Exposure to heterocyclic amines, Environ. Health Per- spect., 99, 129, 1993.
  • Doehmer, J., Seidel, A., Glatt, H. R., Molders, H., P., S., T., F., and Oesch, F., Stable expres- sion of rat cytochrome p450 1A1 cDNA in V 79 Chinese hamster cells and their use in mutagenicity testing, Mol. Pharmacol., 37, 608, 1990.
  • Crespi, C. L., Use of genetically engineered cells for genetic toxicology testing, in Environ- mental Mutagenesis, Phillips, D. H. and Venitt, S., Eds., Eynshham, Bios Press, 1995, 233.
  • Minchin, R. F., Reeves, P. T., Teitel, C. H., McManus, M. E., Mojarrabi, B., Ilett, K. F., and Kadlubar, F. F., N- and O-acetylation of aromatic and heterocyclic amine carcino- gens by human monomorphic and polymor- phic acetyltransferases expressed in COS-1 cells, Biochem. Biophys. Res. Commun., 185, 839, 1992.
  • Probst, M. R., Blum, M., Fasshauer, I., D’Orazio, D., Meyer, U. A., and Wild, D., The role of the human acetylation polymor- phism in the metabolic activtion of the food carcinogen 2-amino-3-methylimidazo[4,5- f]quinoline (IQ), Carcinogenesis, 13, 1713, 1992.
  • Rodrigues, A. S., D., S. I., Caria, M. H., Laires, A., Chaveca, T., Glatt, H. R., and Rueff, J., Genotoxicity assessment of aro- matic amines and amides in genetically engi- neered V79 cells, Mutat. Res., 341, 93, 1994.
  • Otsuka, C., Miura, K. F., and Ishidate, J. M., The possible role of acetyltransferase in the induciton of cytogenetic effects by 2-amino-1-methyl-6-phenylimidazo[4,5-b] pyridine (PhIP) in cultured Chinese hamster cells, Mutat. Res., 371, 23, 1996.
  • Pfeifer, A. M., E., C. K., T., S. D., Weston, A., Groopman, J. D., Shields, P. G., Vignaud, J. M., Juillerat, M., Lipsky, M. M., and Trump, B. F., Simian virus 40 large tumor antigen- immortalized normal human liver epithelial cells express hepatocyte characteristics and metabo- lize chemical carcinogens, Proc. Natl. Sci. U.S.A., 90, 5123, 1993.
  • Eckl, P. M. and Raffelsberger, I., The primary rat hepatocyte micronucleus assay: general fea- tures, Mutat. Res., 392, 117, 1997.
  • Fahrig, R., Rupp, M., Steinkamp, F., Zucht, A., and Bader, A., Use of primary rat and human hepatocyte sandwich cultures for acti- vation of indirect carcinogens. Monitoring of DNA-breaks and gene mutations in co-cul- tured cells, Toxicol. in Vitro, 12, 431, 1998.
  • McKinnon, R. A., Burgess, W. M., Gonzalez, F. J., and McManus, M. E., Metabolic dif- ferences in colon mucosal cells, Mutat. Res., 290, 27, 1993.
  • Massaad, L., de Waziers, I., Ribrag, V., Janot, F., Beaune, P. H., Morizet, J., Gouyett, A., and Chabot, G. C., Comparison of mouse and human colon tumors with regard to phase I and phase II drug-metabolizing enzyme systems, Cancer Res., 52, 6567, 1992.
  • De Waziers, I., Cugnenc, P. H., Berger, A., Leroux, J.-P., and Beaune, P. H., Drug- metabolizing enzyme expression in human normal, peritumoral and tumoral colorectal tissue samples, Carcinogenesis, 12, 905, 1991.
  • Mercurio, M. G., Shiff, S. J., Galbraith, R. A., and Sassa, S., Expression of cytochrome P450 mRNAs in the colon and the rectum in nor- mal human subjects, Biochem. Biophys. Res. Comm., 210, 350, 1995.
  • Uhl, M., Helma, C., and Knasmüller, S., Evaluation of the single cell gel electrophore- sis assays with human hepatoma (Hep G2) cells, Mutat. Res., submitted, 1999.
  • Uhl, M., Helma, C., and Knasmüller, S., Single cell gel electrophoresis assays with hu- man derived hepatoma (Hep G2) cells, Mutat. Res., 441, 215, 1999.
  • Loprieno, N., Boncristiani, G., and Loprieno, G., An experimental approach to identifying the genotoxic risk from cooked meat mutagens, Fd. Chem. Toxicol., 29, 377, 1991.
  • McManus, M. E., Burgess, W., I., S., Trainor, K. J., Fenech, M., Robson, R. A., Morley, A. A., and Snyderwine, E. G., Activation of the food-derived mutagen 2-amino-3-methyl- imidazo[4,5-f]quinoline by human-liver mi- crosomes, Mutat. Res., 204, 185, 1988.
  • Aeschbacher, H. U. and Ruch, E., Effect of heterocyclic amines and beef extract on chro- mosome aberrations and sister chromatid ex- changes in cultured human lymphocytes, Carcinogenesis, 10, 429, 1989.
  • Snyderwine, E. G., Schut, H. A. J., Sugimura, T., Nagao, M., and Adamson, R. H., DNA adduct levels of 2-amino-1-methyl-6-phenyl- imidazo[4,5-f]pyridine (PhIP) in tissues of cy- nomolgus monkeys after single or multiple dos- ing, Carcinogenesis, 15, 2757, 1994.
  • Schut, H. A. J. and Herzog, C. H., Forma- tion of DNA adducts of 2-amino-1-methyl-6- phenylimidazo [4,5-f]pyridine (PhIP) in male Fischer 344 rats, Cancer Lett., 67, 117, 1992.
  • Garner, R. C., The role of DNA adducts in chemical carcinogenesis, Mutat. Res., 402, 67, 1998.
  • Turteltaub, K. W., Mauthe, R. J., Dingley, K. H., Vogel, J. S., Frantz, C. E., Garner, R.C., and Shen, N., MeIQx-DNA adduct for- mation in rodent and human tissues at low doses, Mutat. Res., 376, 243, 1997.
  • Adamson, R. H., Farb, A., Virmani, R., Snyderwine, E. G., Thorgeisson, S. S., S., T., and Sugimura, T. I. E. N. J., Studies on the carcinogenic and myocardial effects of 2-amino- 3-methylimidazo[4,5-f]quinoline (IQ) in non- human primates,inHeterocyclicAminesinCooked Food: Possible Human Carcinogens, Adamson, R. H., Gustafsson, J. A., Nagao, M., Sugimura, T., Wakabayashi, K., and Yamazoe, Y., Eds., Princeton Science Publishers, 1995, 260.
  • Thorgeirsson, U. P., Snyderwine, E. G., Gomez, D. E., and Adamson, R. H., Dietary heterocyclic amines as potential human car- cinogens: experimental data from non human primates, In Vivo, 10, 145, 1996.
  • Snyderwine, E. G., Turesksy, R. J., Turteltaub, K. W., Davies, C. D., Schut, H. A., Nagao, M., Sugimura, T., Thorgeirsson, U. P., Adamson, R. H., and Thorgeirsson, S. S., Metabolism of food derived amines in non-human primates, Mutat. Res., 376, 203, 1997.
  • Takahashi, S., Ogawa, K., H., O., H., E., N., I. and T., S., Induction of aberrant crypt foci in the large intestine of F344 rats by oral administration of 2-amino-1-methyl-6-phenyl- imidazo [4,5-b]pyridine, Jpn. J. Cancer Res., 82, 135, 1991.
  • Tudek, B., Bird, R. P., and Bruce, W. R., Foci of aberrant crypts in the colon of mice and rats exposed to carcinogens associated with food, Cancer Res., 49, 1236, 1989.
  • Tamano, S., Tsuda, H., Tatematsu, M., Hasegawa, R., Imaida, K., and Ito, N., In- duction of glutamyltranspeptidase positive foci in rat liver by pyrolysis products of amino ac- ids, Gann, 92, 747, 1981.
  • Klemann, M., Övervik, E., Planck, A., and Gustafsson, J. A., The food mutagens 2-amino- 3-methylimidazo[4,5-f]quinoline combined with partial hepatectomy followed by partial pheno- barbital or low dose 3 methyl-4-methyl-amino- azobenzene promotion, Jpn. J. Cancer Res., 79, 691, 1989.
  • Klemann, M. I., Övervik, E., Porsch- Hallström, I., Blanck, A., and Gustafsson, J.-A., The heterocyclic amines IQ and MeIQx show no promoting effect in a short-term in vivo liver carcinogenesis assay, Carcinogen- esis, 14, 2123, 1993.
  • Rao, C. V., Rivenson, A., Zang, E., Steele, V., Kelloff, G., and Reddy, B. S., Inhibition of 2-amino-1-methyl-6-phenylimidazo[4,5-b] pyridine induced lymphoma formation by oltipraz, Cancer Res., 56, 3395, 1996.
  • Kilbey, B.J ., Legator, M., W., N., and C., R., Handbook of Mutagenicity Test Procedures, Elsevier, Amsterdam, 1984.
  • Kirkland, D. J., Basic Mutagenicity Tests: UKEMS Recommended Procedures, Cambridge University Press, Cambridge, 1990.
  • Wiebel, F. J., Schwarz, L. R., and Goto, T., Mutagen-metabolizing enzymes in mamma- lian cell cultures: possibilities and limitations for mutagenicity screening, in Short-term Test Systems for Detecting Carcinogens, Norpoth, K. H. and Garner, R. C., Eds., Berlin, Germany, Springer-Verlag, 1980, 209.
  • Wiebel, F. J., Do we need in vivo assays in case of negative in vitro results?, in Current Issues in Genetic Toxicology, Madle, S. and Müller, L., Eds., Munich, Germany, MMV Press, 1993, 25.
  • Paolini, M. and Cantello-Forti, G., On the metabolizing systems for short-term genotox- icity assays: a review, Mutat. Res., 387, 17, 1997.
  • Hayatsu, H., Arimoto-Kobayashi, S., and Negishi, T., Use of activated heterocyclic amines in the screening of dietary antimutagens, Mutat. Res., 402, 225, 1998.
  • Rutten, B. and Gocke, E., The “antimuta- genic” effect of cinnamaldehyde is due to a transient growth inhibition, Mutat. Res., 201, 97, 1988.
  • Maron, D. M. and Ames, B. N., Revised meth- ods for the Salmonella mutagenicity test, in Handbook of Mutagenicity Test Procedures. 2nd edn., Kilbey, B. J., Legator, M., Nichols, W., and Ramel, C., Eds., Elsevier, Amster- dam, 1984, 93.
  • Doostdar, H., Duthie, S. J., Burke, M. D., Melvin, W. T., and Grant, M. H., The influ- ence of culture medium composition on drug metabolizing enzyme activities of the human ventive potential of sulforamate, a novel ana- logue of sulforaphane that induces phase 2 drug-metabolizing enzymes, Cancer Res., 57, 272, 1997.
  • Sakakibara, Y., Suiko, M., and Liu, M. C., De novo sulfation of L-tyrosine in Hep G2 human hepatoma cells and its possible func- tional implication, Eur. J. Biochem., 226, 293, 1994.
  • Prohaska, H. J. and Santamaria, A. B., Direct measurement of NAD(P)H: quinone re- ductase from cells cultured in microtiter walls: a screening assays for anticarcinogenic enzyme inducers, Analytical Biochem., 169, 328, 1988.
  • Prohaska, H. J. and Talalay, P., Regulatory mechanisms of monofunctional and bifunctional anticarcinogenic enzyme inducers in murine liver, Cancer Res., 48, 4776–4782, 1988.
  • Yannai, S., Day, A. J., Williamson, G., and Rhodes, M. J. C., Characterisation of flavo- noids as monofunctional or bifunctional induc- ers of quinone reductase in murine hepatoma cell lines, Fd. Chem. Toxicol., 36, 623, 1998.
  • Gerhäuser, C., Liu, J. M. Y., Moriarty, R. M., Hawthorne, M., Mehta, R. G., Moon, R. C. and Pezzuto, J. M., Cancer chemopre-104, 497, 1996.
  • Williamson, G., DuPont, M. S., Wanigatunga, S., Heaney, R. K., Musk, S. R. R., Fenwick, G. R., and Rhodes, M. J. C., Induction of glutathione-S-transferase activity in Hep G2 cells by extracts from fruits and vegetables, Fd. Chem.Toxicol., 60, 157, 1997.
  • Aeschbacher, H-U. and Turesky, R. J., Mam- malian cell mutagenicity and metabolism of het- erocyclic aromatic amines, Mutat. Res., 259, 235, 1991.
  • Thorgeirsson, S. S., Davis, C. D., Schut, H. A. J., Adamson, R. H., and Snyderwine, E. G., Possible relationship between tissue distribu- tion of DNA adducts and genotoxicity of food- derived heterocyclic amines, in Heterocyclic Amines in Cooked Foods: Possible Human Car- cinogens, Adamson, R. H., Gustafsson, J.-A., Ito, N., Nagao, M., Sugimura, T., Wakabayashi, K., and Yamazoe, Y., Eds., Princeton Press, Princeton, NJ, 1995, 85.
  • Nagao, M., Ochiai, M., Ushijima, T., Watanabe, M., Sugimura, T., and Nakagama, H., Genetic determinant and environmental car- cinogens, Mutat. Res., 402, 85, 1998.
  • Borstel, R. C. and Higgins, J. A., Janus car- cinogens and mutagens, Mutat. Res., 402, 321, 1998.
  • Musk, S. R. R., Astley, S. B., Edwards, S. M., Stephenson, P., Hubert, R. B., and Johnson, I. T., Cytotoxic and clastogenic effects of benzyl isothiocyanate towards cultured mam- malian cells, Fd. Chem. Toxicol., 33, 31, 1995.
  • Kassie, F., Pool-Zobel, B. L., Parzefall, W., and Knasmüller, S., Genotoxic effects of ben- zyl isothiocyanate, a natural chemopreventive agent, Mutagenesis, 14, 595, 1999.
  • Kassie, F., Musk, S. S. R., Parzefall, W., Johnson, I. T., Sontag, G., Schulte Hermann, R., and Knasmüller, S., Antigenotoxic and genotoxic effects of naturally occurring isothio- cyanates, in Bioreactive Substances in Foods of Plant Origin, Kozlowska, H., Fornal, J., and Zuduncyk, Z., Eds., Olsztyn, Polska Academia Nauk, 1995, 501.
  • Kassie, F., Parzefall, W., Musk, S., Johnson, I., Lamprecht, G., Sontag, G., and Knasmüller, S., Genotoxic effects of crude juices from Bras- sica vegetables and juices and extracts form phytopharmaceutical preparations and spices of cruciferous plants origin in bacterial and mam- malian cells, Chem. Biol. Interact., 102, 1, 1996.
  • Tsuda, H., Takahashi, S., Yamaguchi, S., Ozaki, K., and N., I., Comparison of initiation potential of 2-amino-3-methylimidazo [4,5-f]quinoline and 2-amino-3,8-dimeth- ylimidazoquinoxaline in an in vivo carcino- gen bioassay system, Carcinognesis, 11, 549, 1990.
  • Knasmüller, S. and Kassie, F., Inhibition of the formation of IQ induced colonic aberrant crpyts in rats by garden cress extract, in prepa- ration, 1999.
  • Manabe, S., Tohyama, K., Wada, O., and Aramaki, T., Detection of a carcinogen, 2-amino- 1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP), in cigarette smoke condensate, Carci- nogenesis, 12, 1945, 1991.
  • Felton, J. S., Knize, M. G., Shen, N. H., Andersen, B. D., Bjeldanes, L. F., and Hatch,
  • Adamson, R. H., Thorgeirsson, U. P., and Sugimura, T., Extrapolation of heterocyclic amine carcinogenesis data from rodents and non-human primates to humans, Arch. Toxi- col., Suppl. 18, 303, 1996.
  • Felton, J. S., Knize, M. G., Roper, M., Fultz, E., Shen, N. H., and Turteltaub, K. W., Chemical analysis prevention, and low-level dosimetry of heterocyclic amines from cooked food, Cancer Res., 52 (Suppl.), 2103, 1992.
  • Byrne, C., Sinha, R., Platz, E. A., Giovannucci, E., Colditz, G. A., Hunter, D. J., Speizer, F. E., and Willett, W. C., Predictors of dietary het- erocyclic amine intake in three prospective co- horts, Cancer Epidemiol. Biomarkers Prev., 7, 523, 1998.
  • Ikeda, M., Yoshimoto, K., Yoshimura, T., Kono, S., Kato, H., and Kuratsune, M., A cohort study on the possible association be- tween broiled fish intake and cancer, Gann, 74, 640, 1983.
  • Norell, S. E., Ahlbom, A., Erwald, R., Jacobson, G., Lindberg-Navier, I., Olin, R., Törnberg, B., and Wichel, K. L., Diet and pancreatic cancer: a case control study, Am. J. Epidemiol., 124, 894, 1986.
  • Schiffmann, M. H. and Felton, J. S., Fried food and the risk of colon cancer, Am. J. Epi- demiol., 131, 376, 1990.
  • Steineck, G., Hagmann, U., Gerhardsson, M., and Norell, S. E., Vitamin A supple- ments, fried foods, fat and urothelial cancer: a case referent study in Stockholm in 1985- 87, Int. J. Cancer, 45, 1006, 1990.
  • Young, T. B. and Wolf, D. A., Case control study of proximal and distal colon cancer and diet in Wisconsin, Int. J. Cancer, 42, 167, 1988.
  • Gerhardsson de Verdier, M., Epidemio- logical studies on fried foods and cancer in Sweden, in Heterocyclic Amines in Cooked Foods: Possible Human Carcinogens, Adamson, R. H., Gustafsson, J.-A., Ito, N., Nagao, M., Sugimura, T., Wakabayashi, K., and Yamazoe, Y., Eds., Princeton Press, Princeton, NJ, 1995, 292.
  • Augustsson, K., K., S., Jägerstad, M., Dickman, P. W., and G. S., Dietary hetero- cyclic amines and cancer of the colon, rectum, bladder, and kidney: a population-based study, Lancet, 353, 703, 1999.
  • Gil, J. P. and Lechner, M. C., Increased frequency of wild-type arylamine-N-acetyltrans- ferase allele NAT2*4 homozygotes in Portu- guese patients with colorectal cancer, Carcino- genesis, 19, 37, 1998.
  • Lang, N. P., Butler, M. A., Massengill, J., Lawson, M., Craig Stotts, R., Hauer-Jensen, M., and Kadlubar, F. F., Rapid metabolic phenotypes for acetyltransferase and cytochrome P4501A2 and putative exposure to food-borne heterocyclic amines increase the risk for colo- rectal cancer or polyps, Cancer Epidemiol. Bio- markers Prev., 3, 675, 1994.
  • Minchin, R. F., Kadlubar, F. F., and Ilett, K. F., Role of acetylation in colorectal can- cer, Mutat. Res., 290, 35, 1993.
  • Takayama, S., Nakatsuru, Y., and Sato, S., Carcinogenic effect of the simultatneous admin- istration of five heterocyclic amines to F344 rats, Jpn. J. Cancer Res., 78, 1068, 1987.
  • Ito, H., Hasegawa, R., Shirai, T., Fukushima, S., Hakai, T., Takaba, K., Iwasaki, S., Wakabayashi, K., Nagao, M., and T., S., Enhancement of GST-P positive foci develop- ment by combined treatment of rats with five heterocyclic aromatic amines at low doses, Car- cinogenesis, 12, 767, 1991.
  • Ito, H., Hasegawa, R., Asakawa, E., Hirose, M., Imaida, K., and Hagiwara, A., Enhance- ment of rat liver cell foci development by com- bined treatment with heterocyclic amines at low doses, in Heterocyclic Amines in Cooked Foods: Possible Human Carcinogens, Adamson, R. H., Gustafsson, J.-A., Ito, N., Nagao, M., Sugimura, T., Wakabayashi, K., and Yamazoe, Y., Eds., Princeton Press, Princeton, NJ, 1995, 251.
  • Davies, D. S., Gooderham, N. J., Murray, S., DeLaTorre, R., Segura, J., and Boobis, A. R., Systemic exposure to dietary heterocy- clic amines in man, in Heterocyclic Amines in Cooked Foods: Possible Human Carcinogens, Adamson, R. H., Gustavsson, J.-A., Ito, N., Nagao, I., Sugimura, T., Wakabayashi, K. and Yamazoe, Y., Eds., Princeton Press, Princeton, NJ, 1995, 190.
  • Bogaards, J. J., Verhagen, H., Willems, M. I., van-Poppel, G., and van Bladeren, P. J., Consumption of Brussels sprouts results in elevated alpha-class glutathione-S-transferase levels in human blood plasma, Carcinogen- esis, 15, 1073–1075, 1994.
  • Nijhoff, W. A., Grubbe, M. J., Nagengast, F. M., Jansen, J. B., Verhagen, H., van Poppel, G., and Peters, W. H., Effects of consumption of Brussels sprouts on intestinal and lymphocytic glutathione-S-transferases in humans, Carcinogenesis, 16, 2125, 1995.
  • Nijhoff, W. A., Mulder, T. P. J., Verhagen, H., van Poppel, G., and Peters, W. H. M., Effects of consumption of Brussels sprouts on plasma and urinary glutathione-S-transferase class- and - in humans, Carcinogenesis, 16, 955, 1995.
  • Sreerama, L., Hedge, M. W., and Sladek, N. E., Identification of a class 3 aldehyde dehy- drogenase in human saliva and increased lev- els of this enzyme, glutathione-S-transferases, and DT-diaphorase in the saliva of subjects who continually ingest large quantities of coffee or broccoli, Clin. Cancer Res., 1, 1153, 1995.
  • DeMarini, D. M., Hastings, S. B., Brooks, L. R., Eischen, B. T., Bell, D. A., Watson, M. A., Felton, J. S., Sandler, R., and Kohlmeier, L., Pilot study of free and conjugated urinary mutagenicity during consumption of pan-fried meats: possible modulation by cruciferous vegetables, gluthatione-S-transferase-M1, and N-acetyltransferase-2, Mutat. Res., 381, 83, 1997.
  • Ohyama, S., Inamasu, T., Ishizawa, M., Ishinishi, N., and Matsuura, K., Mutagenic- ity of human urine after the consumption of fried salted salmon, Fd. Chem. Toxicol., 25, 147, 1987.
  • Ohyama, S., Kitamori, S., Kawano, H., Yamada, T., Inamasu, T., Ishizawa, M., and Ishinishi, M., Ingestion of parsley inhibits themutagenicity of male human urine following consumption of fried salmon, Mutat. Res., 192, 311.
  • Sones, K., Heaney, R. K., and Fenwick, G. R., An estimate of the mean daily intake of glu- cosinolates from cruciferous vegetables in the UK, J. Sci. Fd. Agric., 35, 712, 1984.
  • Chow, W-H., Blot, W. J., and McLaughlin, J. K., Tea drinking and cancer risk: epidemi- ologic evidence, Proc. Soc. Exp. Biol. Med., 200, 197, 1999.
  • Blot, W. J., Chow, W. H., and McLaughlin, J. K., Tea and cancer. A review on the epide- miologic evidence, Eur. J. Cancer Prev., 5, 425, 1996.
  • Blot, W. J., McLaughlin, J. K., and Chow, W. H., Cancer rates among drinkers of black tea, Crit. Rev. Food Sci. Nutr., 37, 739, 1997.
  • Kohlmeier, L., Weterings, K. G. C., Steck, S., and Kok, F., Tea and cancer prevention: an evaluation of the epidemiologic literature, J. Nutr. Cancer, 27, 1, 1997.
  • Trock, B., Lanza, E., and Greenwald, P., Dietary fiber, vegetables, and colon cancer: critical review and meta-analyses of the epi- demiologic evidence, J. Natl. Cancer Inst., 82, 650, 1990.
  • Steinmetz, K. A. and Potter, J. D., Veg- etables, fruit and cancer. I. Epidemiology, Cancer Causes Contr., 2, 325, 1991.
  • Bridges, B., The three tier approach to mu- tagenicity screening and the concept of radia- tion-equivalent dose, Mutat. Res., 26, 335, 1974.
  • Ashby, J., The prospects of a simplified and internationally harmonized approach to the de- tection of possible human carcinogens and mu- tagens, Mutagenesis, 1, 3, 1986.

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