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DNA adducts as early bioindicators of chemical exposure

  • Exposure/Risk Assessment
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Abstract

Sensitive analytical methods indicate the presence of hundreds of chemical contaminants in our environment. However, concentration of these pollutants is usually at the low parts per million or parts per billion level. At such low levels, toxicants induce long-term (chronic) rather than short-term (acute) toxicities. Experiments are designed to evaluate chronic toxicity using early bioindicators. Recently, fish have been used as experimental animals because some species show early (weeks as opposed to years in other research animals), sensitive responses. Thus, medaka (Oryzias latipes), following exposure to diethylnitrosamine (DEN), exhibited liver tumors in several weeks; more interestingly its DNA was modified (to a ‘DNA-adduct’) after only 24–48 hours exposure. Such adducts show promise as early bioindicators because they are formed within hours of exposure. The formation of DNA-adducts were monitored in medaka and rainbow trout (Salmo gairdneri) exposed to DEN by aqueous or intra-peritoneal routes. Using HPLC-Fluorimetry, O 6-ethylguanine (O 6-EtGua) was detected and monitored in acid thermal hydrolysates of DNA isolates. (Detection limit for O 6-EtGua was as low as 3 ng, 1.7×10-11 moles). Fourier transform cyclotron resonance mass spectrometry with IR laser desorption/ionization was used advantageously to establish the structure of nucleotides, bases and nucleosides directly, without further cumbersome derivatizations. Other aspects of DNA-adducts are discussed.

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References

  • Archer, M. C.: 1981, ‘Reactive Intermediates from Nitrosamines’, Advances in Experimental Medical Biology. 136, 1027–1035.

    Google Scholar 

  • Couch, J. A., and Harshbarger, J. C.: 1985, ‘Effects of Carcinogenic Agents on Aquatic Animals: An Environmental and Experimental Overview’, Environmental Carcinogenesis Reviews. 3, 63–105.

    Google Scholar 

  • Croy, R. G., Nixon, J. E., Sinnhuber, R. O., and Wogan, G. N.: 1980, ‘Investigation of Covalent Aflatoxin B1-DNA Adducts Formed in vivo in Rainbow Trout (Salmo gairdneri) embryos and liver’, Garcinogenesis. 1, 903–909.

    Google Scholar 

  • Farber, E., and Sarma, D. S. R.: 1987, ‘Hepatocarcinogenesis: A Dynamic Cellular Perspective’, Laboratory Investigations. 56, 4–22.

    Google Scholar 

  • Fong, A. T., Hendricks, J. D., Dashwood, R. H., VanWinkle, S., and Bailey, G. S.: 1988, ‘Formation and Persistence of Ethylguanines in Liver DNA of Rainbow Trout (Salmo gairdneri) Treated with Diethylnitrosamine by Water Exposure’, Food Chem. Toxic. 26, 699–704.

    Google Scholar 

  • Giam, C. S., Holliday, T. L., Williams, J. L., Bahnson, A., Weller, R. R., and Hinton, D. E.: 1988, ‘DNA-Adducts in Fish Exposed to Alkylating Carcinogens’, Abstracts of Papers Presented to Division of Environmental Chemistry at the Los Angeles, California Meeting, pp. 337–340.

  • Giam, C. S., Holliday, T. L., Williams, J. L., and Hinton, D. E.: 1989, ‘DNA Adducts in Medaka Exposed to Diethylnitrosamine’, Abstract, Presented at the American Chemical Society Meeting, Dallas, TX.

  • Giam, C. S., Holliday, T. L., Williams, J. L., Weller, R. R., Mayernick, J. A., and Hinton, D. E.: 1989b, ‘Laser Desorption-Ionization FT-ICR Mass Spectrometry: DNA-Adduct Bases, Nucleosides, and Nucleotides’, Marine Environmental Research. 28, In Press.

  • Grizzle, J. M.: 1985, ‘Black Bullhead: An Indicator of the Presence of Chemical Carcinogens’, In: Water Chlorination, Environmental Impact and Health Effects. Jolley, R., Bull, R. J., Davis, W. P. (Editors), Lewis Publishers, Inc. Chelsea, Michigan, pp. 429–348.

    Google Scholar 

  • Hawkins, W. E., Overstreet, R. M., and Walker, W. W.: 1988, ‘Carcinogenicity Tests with Small Fish Species’, Aquatic Toxicology. 11, 113–128.

    Google Scholar 

  • Higginson, J.: 1981, ‘Rethinking the Environmental Causation of Human Cancer’, Food Cosmet. Toxicol. 19, 539–548.

    Google Scholar 

  • Holliday, T. L.: 1989, Comparison of DENA Carcinogenesis in Two Fish Species. Ph.D. Thesis. West Virginia University.

  • Hoover, K. L. (Editor): 1984, ‘Use of Small Fish Species in Carcinogeneticity Testing’, National Cancer Institute Monograph. 65, 404 pp.

  • Kroeger-Koepke, M. B., Koepke, S. R., McCluskey, G. A., Magee, P. N., and Michejda, C. J.: 1981, ‘Alphahydroxylation Pathway in the in vitro Metabolism of Carcinogenic Nitrosamines: N-Nitrosodimethylamine and N-Nitroso-N-methylaniline’, Proceedings National Academy of Sciences USA. 78, 6489–6493.

    Google Scholar 

  • Lai, D. Y., and Arcos, J. C.: 1980, ‘Dialkylnitrosamine Bioactivation and Carcinogenesis’, Life Sciences. 27, 2149–2165.

    Google Scholar 

  • Malins, D. C., McCain, B. B., Landahl, J. T., Myers, M. S., Krahn, M. M., Brown, D. W., Chan, S. L. and Roubal, W. T.: 1988, ‘Neoplastic and Other Diseases in Fish in Relation to Toxic Chemicals: An Overview’, Aquatic Toxicology. 11, 43–67.

    Google Scholar 

  • Marmur, J.: 1961, ‘A Procedure for the Isolation of DNA from Microorganisms’, Journal of Molecular Biology. 3, 208–218.

    Google Scholar 

  • Matsushima, T., and Sugimura, T.: 1976, ‘Experimental Carcinogenesis in Small Aquarium Fishes’, Progress in Experimental Tumor Research. 20, 367–379.

    Google Scholar 

  • Mix, M. C.: 1986, ‘Cancerous Diseases in Aquatic Animals and Their Association with Environmental Pollutants: A Critical Literature Review’, Marine Environmental Research. 20, 1–141.

    Google Scholar 

  • Nelson, N.: 1981, ‘Cancer Prevention: Environmental, Industrial, and Occupational Factors’, Cancer. 47, 1065–1070.

    Google Scholar 

  • Pitot, H. C., and Sirica, A. E.: 1980, ‘The Stages of Initiation and Promotion in Hepatocarcinogenesis’, Biochem. et Biophys. Acta. 605, 191–215.

    Google Scholar 

  • Schlumberger, H. G., and Lucke, B.: 1948, ‘Tumors of Fishes, Amphibians, and Reptiles’, Cancer Research. 8, 657–754.

    Google Scholar 

  • Sims, P.: 1980, ‘The Metabolic Activation of Chemical Carcinogens’, British Medical Bulletin. 36, 11–18.

    Google Scholar 

  • Swenberg, J. A., and Petzoid, G. L.: 1979, ‘The Usefulness of DNA Damage and Repair Assays for Predicting Carcinogenic Potential of Chemicals’, In: Stratgies for Short-term Testing for Mutagens/Carcinogens. Butterworth, B. E., and Golberg, L., Editors. CRC Press, West Palm Beach, Florida, pp. 77–86.

    Google Scholar 

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Authors and Affiliations

  1. Texas A&M University at Galveston, 5007 Avenue U., 77551, Galveston, TX, U.S.A.

    C. S. Giam, T. L. Holliday, Y. Zheng, J. L. Williams & M. S. Ahmed

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  1. C. S. Giam
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  2. T. L. Holliday
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  3. Y. Zheng
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  4. J. L. Williams
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  5. M. S. Ahmed
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Giam, C.S., Holliday, T.L., Zheng, Y. et al. DNA adducts as early bioindicators of chemical exposure. Environ Monit Assess 19, 335–340 (1991). https://doi.org/10.1007/BF00401322

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