Covalent DNA damage in tissues of cigarette smokers as determined by 32P-postlabeling assay.

Covalent DNA addition products (adducts) formed by the reaction of chemical carcinogens or their metabolites with DNA are critically involved in the initiation of chemical carcinogenesis and may serve as molecular markers and dosimeters for environmental carcinogen exposures. Using a highly sensitive 32P-postlabeling assay for DNA adduct analysis, we studied DNA damage elicited by cigarette smoke in tissues of smokers. A multitude of characteristic smoking-induced, presumably aromatic DNA adducts were found to occur in a dose- and time-dependent manner in the lung, bronchus, and larynx of smokers with cancer of these organs and to decline only slowly after cessation of smoking.

Quantitative associations between DNA damage in human placenta and maternal smoking and birth weight.

Specimens of human placental DNA were tested for chemical addition products (adducts) by recently developed 32P-postlabeling and immunologic assays, and results were compared with data concerning maternal exposures and birth weight. A total of 7 different adducts were detected in the 53 specimens of human placental tissue examined by the 32P-postlabeling assay. Three of these adducts were found almost exclusively in smokers.

Localization of estrogen-induced DNA adducts and cytochrome P-450 activity at the site of renal carcinogenesis in the hamster kidney.

Renal carcinoma in male Syrian hamsters, induced by chronic administration of estradiol for 5-7 months, is known to arise in the cortex at the cortico-medullary junction. In this in vivo model for hormonal carcinogenesis, estrogen-induced covalent DNA adducts have previously been observed in whole kidney and have been postulated to be involved in tumor induction. In the present study, the intrarenal distribution of estrogen-induced DNA modification and estrogen metabolizing enzymes were investigated in male Syrian hamsters to ascertain a role of metabolism and adduct formation in estrogen-induced carcinogenesis.

Comparative 32P-analysis of cigarette smoke-induced DNA damage in human tissues and mouse skin.

Previous studies using a highly sensitive 32P-postlabeling assay for the analysis of carcinogen/mutagen-induced DNA damage have shown the presence of tobacco smoking-related DNA adducts in human placenta (Everson, R.B., Randerath, E.

Estrogen-induced endogenous DNA adduction: possible mechanism of hormonal cancer.

In animals and humans, estrogens are able to induce cancer in susceptible target organs, but the mechanism(s) of estrogen-induced carcinogenesis has not been elucidated. A well-known animal model is the development of renal carcinoma in estrogen-treated Syrian hamsters. Previous work demonstrated the presence of covalent DNA addition products (adducts) in premalignant kidneys of hamsters exposed to the synthetic estrogen, diethylstilbestrol, a known human carcinogen.

Detection of smoking-related covalent DNA adducts in human placenta.

The presence of covalent DNA chemical addition products (adducts) in human term placentas was investigated by recently developed immunologic and 32P-postlabeling assays. DNA from placental specimens of smokers showed a small but not statistically significant increase in adduct levels when tested by antibodies to DNA modified with a benzo[a]pyrene dihydrodiol epoxide (BPDE-I), the ultimate carcinogenic derivative of benzo[a]pyrene. The postlabeling assay detected several modified nucleotides, one of which (adduct 1) strongly related to maternal smoking during pregnancy.