ABSTRACT
As part of a large programme on food risk assessment, we have become Interested in the endogenous production of genotoxic agents from dietary precursors. Malondialdehyde (MDA), a product of lipid peroxidation and prostaglandin biosynthesis, is mutagenic in bacterial and mammalian systems. MDA reacts with DNA, and the major adduct (M1-dG) has been detected in healthy human liver and leukocyte DNA. Analytical methods used so far for the detection of M1-dG have not been applied to large numbers of individuals or a large variety of samples. Often, only a few micrograms of DNA from human tissues are available for analysis, and a very sensitive assay is needed to detect background levels of M1-dG in very small amounts of DNA. In this paper, we describe the development of an immunoslot-blot (ISB) assay for the measurement of M1-dG in 1 microgram of DNA. The limit of detection of the assay is about 5 adducts per 10(8) bases. The advantages of ISB over other assays for DNA adduct detection, such as the possibility of analysing 1 microgram DNA per sample and the fact that it is less time-consuming and laborious, mean that it can be more easily used for routine analysis of large numbers of samples in biomonitoring. A series of human samples was analysed, and levels of 0.3-6.43 M1-dG per 10(7) normal bases were detected in 42 gastric biopsy samples and 0.7-16.65 M1-dG per 10(7) normal bases in 28 samples of leukocyte DNA. In an initial study in five human volunteers on standardized diets, the levels of M1-dG in leukocyte DNA changed in relation to meat, vegetable and tea intake.
