The organ-specific induction of DNA adducts in 2-acetylaminofluorene-treated rats, studied by means of a sensitive immunochemical method.

Exposure of cells to chemical carcinogens and mutagens may result in the formation of DNA adducts, which can give rise to mutations in the genome and to cellular transformation. Methods to measure DNA-adduct formation may be useful for 'biomonitoring', to establish exposure of laboratory animals or humans to DNA-damaging agents. For such purposes, immunochemical methods appear to be suitable, because they allow sensitive detection and quantification of DNA adducts in small amounts of sample in a non-radiolabelled form. We have worked out optimal conditions for the detection of DNA adducts by means of competitive enzyme-linked immunosorbent assay (ELISA). This technique involves interaction of soluble antigen, immobilized antigen and antibody. It appeared that the sensitivity of the competitive assay can be improved by lowering the amount of immobilized antigen, adsorbed to the wall of the plastic reaction vessel. On the basis of these observations, suitable conditions were selected for a sensitive quantitative assay of adducts in DNA isolated from various organs of rats, treated (p.o.) with the liver carcinogen 2-acetylaminofluorene (2-AAF). Under the conditions of these experiments, the available rabbit antiserum recognizes the guanosine-AAF adduct with high specificity. A time- and dose-dependent induction of AAF adducts could be measured in liver DNA from exposed rats, whereas the amount of adducts in DNA from spleen and nucleated blood cells remained below the detection limit (1 adduct/10(8) nucleotides). The implications of these findings with respect to the relevance of blood cell biomonitoring for target cell exposure are discussed.