Metabolism and DNA adduct formation are critical in cancer induction by NNK. The investigators goal is to understand whether the observed ethnic/racial differences in lung cancer incidence are due to variations in NNK metabolism. The investigators overall hypothesis is that cancer susceptibility relates to carcinogen dose and to the balance between carcinogen metabolic activation and detoxification. The investigators propose to test this hypothesis via investigation of potential differences in NNK metabolic activation and detoxification in African American and European American smokers.
Lung cancer is the most common cause of cancer death in the United States, with the annual number of cases estimated at 162,460 deaths per year. It is more prevalent in African Americans as compared to European Americans. Cigarette smoking causes up to 90% of lung cancer, being the major risk factor in both African Americans and European Americans. Tobacco-specific nitrosamines (TSNA) are among the most significant carcinogens in tobacco products. Multiple international studies clearly document the occurrence of substantial amounts of these carcinogens in both unburned tobacco and tobacco smoke. One of the most prevalent of these compounds, 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK), is present in both unburned tobacco and cigarette smoke, and is a remarkably effective lung carcinogen in laboratory animals, inducing lung tumors in rodents independent of the route of administration. 4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL), a metabolite of NNK, is also a pulmonary carcinogen. NNK has been classified by the International Agency for Research on Cancer as a Group 1 carcinogen (carcinogenic to humans). Consistent with this, 2 recent studies by our group have demonstrated that levels of NNAL in serum or urine are related to lung cancer in smokers. Our primary aim is to conduct a comprehensive analysis of urinary biomarkers of NNK metabolic activation and detoxification in African American and European American smokers. We hypothesize that, after adjustment for smoking level, the relative contribution of the biomarkers of NNK metabolic activation to the total amount of NNK metabolites will be higher in African Americans as compared to European Americans. Our secondary aim is to measure in exfoliated oral mucosa cells of African American and European American smokers DNA adducts formed as a result of NNK metabolic activation. The results of these measurements will offer a direct measure of NNK-induced DNA damage in smokers, and will be critical to an understanding of the balance between the urinary excretion of NNK metabolites and the extent of NNK DNA binding. We hypothesize that African Americans will have in the DNA of their oral mucosa cells higher levels of NNK-derived DNA adducts as compared to European Americans. Finally, we will investigate the relationship between levels of NNK-derived DNA adducts measured in oral mucosa cells and the rates of repair of these adducts in cultured lymphocytes from our subjects. These measurements will allow us to evaluate more fully the role of variations in NNK metabolism in the observed differences in lung cancer risk between European American and African American smokers. We expect that that African Americans will have lower capacity to repair NNK-induced DNA damage as compared to European Americans, and this will correlate with higher levels of NNK-derived buccal DNA adducts.
Tobacco Research Programs University of Minnesota
Minneapolis, Minnesota, United States
Conduct a comprehensive analysis of urinary biomarkers of NNK metabolic activation and detoxification in African American and European American smokers.
We will recruit smokers to smoke specially prepared cigarettes containing \[pyridine-D4\]NNK, and measure deuterium-labeled NNK metabolites in the urine of these subjects. The rationale for the use of deuterium-labeled NNK is that we need to specifically identify NNK-derived metabolites, because these biomarkers are also formed as a result of nicotine metabolism. Our overall hypothesis is that the relative contribution of the biomarkers of NNK metabolic activation to the total amount of NNK metabolites will be higher in African Americans as compared to European Americans.
Time frame: 10 days
Measure in exfoliated oral mucosa cells of African American and European American smokers DNA adducts formed as a result of NNK metabolic activation.
We will collect exfoliated oral mucosa cell samples from the recruited subjects. DNA isolated from these samples will be analyzed for \[pyridine-D4\]NNK-derived adducts. Our overall hypothesis in this Specific Aim is that African Americans will have in the DNA of their oral mucosa cells higher levels of NNK-derived DNA adducts as compared to European Americans.
Time frame: 10 days
Assess the repair of NNK-induced DNA damage.
We will investigate the relationship between the levels of NNK-derived DNA adducts measured in the oral mucosa cells and the rates of repair of these adducts in cultured lymphocytes from our subjects. Our overall hypothesis for this Specific Aim is that African Americans will have lower capacity to repair NNK-induced DNA damage as compared to European Americans, and this will correlate with higher levels of \[pyridine-D4\]NNK-derived buccal DNA adducts.
Time frame: 10 days
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Study Type
OBSERVATIONAL
Enrollment
161