Many xenobiotics exert their toxic effects through interaction with DNA in the cells of the exposed organism. This interaction may lead to the formation DNA adducts. Some of these may give rise to mutations that initiate cell transformation and, ultimately, the formation of tumors. Sensitive methods for determining DNA adducts are indispensable for the study of chemical mutagenesis and carcinogenesis and for biomonitoring human exposure to genotoxic agents. Alkylating agents form an important class of genotoxic compounds. They react preferentially at the N7-position of guanine. Under neutral or acidic conditions, the adducts can be readily released from the DNA backbone as the free base N7-alkylguanine (N7-AlkGua). The imidazole ring of N7-alkyldeoxyguanosine (N7-AlkdGuo) can be opened under alkaline conditions, which results in formation of a more stable adduct in DNA. To develop immunochemical methods for the detection of N7-alkylations, we immunized mice with various alkylguanosines in the ring-opened form (RON7-AlkdGuo). Antibodies were selected to detect adducts in isolated DNA by competitive ELISA and in single cells by immunofluorescence microscopy (IFM). Various monoclonal antibodies were characterized in detail with respect to specificity and sensitivity toward methylated, ethylated, and hydroxyethylated DNAs. The antibodies showed extensive cross-reactivity toward N7-(m)ethyl- and N7-(2-hydroxyethyl)guanine modifications in the ring-opened form. The limits of detection in the direct and competitive ELISA were 5-10 and 1-2 adducts per 10(6) nucleotides, respectively. The detection limit of the IFM method was about 20 adducts per 10(6) nucleotides(ABSTRACT TRUNCATED AT 250 WORDS)
Monoclonal antibodies have been developed for the analysis of the predominant lesion in DNA induced by ethylene oxide (EtOx), namely N7-(2-hydroxyethyl)guanine (N7-EtOHGua). Two monoclonal antibodies raised against imidazole ring-opened N7-(2-hydroxyethyl)guanine (RON7-EtOHGua), N7EO-E and N7EO-11, and the previously isolated antibody N7E-102 were characterized by competitive ELISA with various inhibitors. N7EO-E and N7EO-11 recognize 2-hydroxyethyl lesions better than ethyl or methyl lesions, while N7E-102 recognizes 2-hydroxyethyl and ethyl modifications equally well. All antibodies show a preference for imidazole ring-opened adducts, bind better to adducts in DNA compared to alkylated nucleosides or bases and bind 10(6)- to 3 x 10(6)-fold less well to unmodified DNA. The sensitivity of detection of RON7-EtOHGua in DNA and in the nuclei of cells in situ by antibody N7EO-E was investigated in several assays. The immunoslot blot assay was the most sensitive method (0.34 RON7-EtOHGua per 10(6) nucleotides was detectable), followed by competitive ELISA, direct ELISA and in situ detection by immunofluorescence microscopy. The immunoslot blot assay was used to analyse N7-EtOHGua levels in white blood cell DNA from individuals exposed to EtOx (2-5 p.p.m.) and of controls. This exposure did not result in a statistically significant increase in the N7-EtOHGua level.
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