Studies using specific biomarkers for human exposure assessment to exogenous and endogenous chemical agents

Abstract

The extent of formation of carcinogen adducts with DNA and protein may be used to assess the biologically effective dose of these carcinogens in the tissue under study. In normal human tissues, such carcinogen adducts arise in part from exposures to exogenous genotoxic compounds, although it has been shown that endogenously formed carcinogens also make a significant contribution to the observed DNA and protein damage. Although, highly sensitive analytical methods, such as immunoassay, 32 P -postlabelling and mass spectrometry have been developed and successfully applied to measure carcinogen adducts, further methodological advances are making these methods more amenable to molecular epidemiological studies. Thus, the use of immunoslot blot assays allows a higher sample throughput for adduct quantification. Liquid chromatographic separations of adducts, either for their radiochemical detection following 32 P -postlabelling or for their determination by mass spectrometry, improves the specificity and applicability of these techniques. In this review, the sensitivities and specificities of the analytical methods used for adduct detection are compared and the limitations of these methods described.