COX-2 polymorphism, use of nonsteroidal anti-inflammatory drugs, and risk of colon cancer in African Americans (United States).

INTRODUCTION: The inducible Cyclooxygenase (COX)-2 enzyme plays an important role in inflammation and carcinogenesis. Recent reports suggest that single nucleotide polymorphisms (SNPs) in the COX-2 gene may alter enzyme function and in turn modify an individual's risk of colon cancer. We explored the association between the COX-2 Val511Ala SNP and risk of colon cancer among 240 African American cases and 326 African American controls in a population-based, case-control study in North Carolina. METHODS: We used unconditional logistic regression models to determine the odds ratios (ORs) for genotype and risk of colon cancer. RESULTS: We observed a non-statistically significant inverse association between any Ala COX-2 genotype and risk of colon cancer (OR = 0.62, 95% CI: 0.33, 1.16) among African Americans. The inverse association was present among non-regular NSAID users, use < or = 3 times/week, (OR = 0.66; 95% CI: 0.32, 1.37) and regular NSAID users, use > or =3 times/week for > or =3 months, (OR = 0.41; 95% CI: 0.11, 1.54). CONCLUSIONS: Our results suggest that the COX-2 Val511Ala SNP does not antagonize the effect of NSAIDs on colon cancer risk and provides support that NSAID use and the COX-2 Val511Ala SNP may contribute to a reduced risk of colon cancer among African Americans.

Polymorphisms in nucleotide excision repair genes, smoking and breast cancer in African Americans and whites: a population-based case-control study.

Polymorphisms exist in several genes involved in nucleotide excision repair (NER), the principal pathway for removal of smoking-induced DNA damage. An epidemiologic study was conducted to determine whether these polymorphisms modify the association between smoking and breast cancer. DNA samples and exposure histories were analyzed as part of a large population-based case-control study of breast cancer in North Carolina. The study population included 2311 cases (894 African Americans, 1417 whites) and 2022 controls (788 African Americans, 1234 whites). Odds ratios (ORs) were calculated for breast cancer and smoking, and for breast cancer and nine non-synonymous coding polymorphisms in six NER genes (XPD codons 312 and 751, RAD23B codon 249, XPG codon 1104, XPC codon 939, XPF codons 415 and 662, and ERCC6 codons 1213 and 1230). Modification of ORs for smoking by single and combined NER genotypes was investigated. In this study population, smoking was more strongly associated with breast cancer in African American women compared with white women. Among African American women, the association of breast cancer and smoking was strongest among women with specific combinations of NER genotypes. Evidence for multiplicative interaction was found between combined NER genotypes and smoking dose (likelihood ratio test P = 0.06), duration (P = 0.09), time since cessation (P = 0.02), age at initiation (P = 0.04) and former smoking (P = 0.03). No interactions were observed in white women. Therefore, polymorphisms in NER genes may modify the relationship between breast cancer and smoking. These results are consistent with previous evidence of exposure-specific p53 mutations in breast tumors from current and former smokers, suggesting that smoking may play a role in breast cancer etiology.

Polymorphisms in nucleotide excision repair genes and risk of multiple primary melanoma: the Genes Environment and Melanoma Study.

Polymorphisms in six genes involved in nucleotide excision repair of DNA were examined in a large population-based case-control study of melanoma. Genotyping was conducted for 2485 patients with a single primary melanoma (controls) and 1238 patients with second or higher order primary melanomas (cases). Patients were ascertained from nine geographic regions in Australia, Canada, Italy and the United States. Positive associations were observed for XPD 312 Asn/Asn versus Asp/Asp [odds ratio (OR) = 1.5, 95% confidence interval (CI) 1.2-1.9] and XPD 751 Gln/Gln versus Lys/Lys (OR = 1.4, 95% CI 1.1-1.7) genotypes and melanoma. The combined XPD Asn (A) 312 + Gln (C) 751 haplotype was significantly more frequent in cases (32%) compared with controls (29%) (P = 0.003) and risk of melanoma increased significantly with one and two copies of the haplotype (ORs 1.2, 95% CI 1.0-1.4, and 1.6, 95% CI 1.2-2.0, trend P = 0.002). No significant associations were observed for HR23B codon 249, XPG codon 1104, XPC codon 939, XPF codon 415, XPF nt 2063, ERCC6 codon 1213 or ERCC6 codon 1230. ORs for XPD and XPC genotypes were stronger for melanoma diagnosed at an early age, but tests for interaction were not statistically significant. The results provide further evidence for a role of XPD in the etiology of melanoma.

Polymorphisms in DNA repair genes, medical exposure to ionizing radiation, and breast cancer risk.

An epidemiologic study was conducted to determine whether polymorphisms in DNA repair genes modify the association between breast cancer risk and exposure to ionizing radiation. Self-reported exposure to ionizing radiation from medical sources was evaluated as part of a population-based, case-control study of breast cancer in African-American (894 cases and 788 controls) and White (1,417 cases and 1,234 controls) women. Genotyping was conducted for polymorphisms in four genes involved in repair of radiation-induced DNA damage, the double-strand break repair pathway: X-ray cross-complementing group 3 (XRCC3) codon 241 Thr/Met, Nijmegen breakage syndrome 1 (NBS1) codon 185 Glu/Gln, X-ray cross-complementing group 2 (XRCC2) codon 188 Arg/His, and breast cancer susceptibility gene 2 (BRCH2) codon 372 Asn/His. Allele and genotype frequencies were not significantly different in cases compared with controls for all four genetic polymorphisms, and odds ratios for breast cancer were close to the null. Combining women with two, three, and four variant genotypes, a positive association was observed between breast cancer and number of lifetime mammograms (P(trend) < 0.0001). No association was observed among women with zero or one variant genotype (P = 0.86). Odds ratios for radiation treatments to the chest and number of lifetime chest X-rays were slightly elevated but not statistically significant among women with two to four variant genotypes. The study has several limitations, including inability to distinguish between diagnostic and screening mammograms or reliably classify prediagnostic mammograms and chest X-rays in cases. Prospective studies are needed to address whether common polymorphisms in DNA repair genes modify the effects of low-dose radiation exposure from medical sources.

Manganese superoxide dismutase Ala-9Val polymorphism and risk of breast cancer in a population-based case-control study of African Americans and whites.

INTRODUCTION: A polymorphism in the manganese superoxide dismutase (MnSOD) gene, Ala-9Val, has been examined in association with breast cancer risk in several epidemiologic studies. Results suggest that the Ala allele increases the risk of breast cancer and modifies the effects of environmental exposures that produce oxidative damage to DNA. METHODS: We examined the role of the MnSOD Ala-9Val polymorphism in a population-based case-control study of invasive and in situ breast cancer in North Carolina. Genotypes were evaluated for 2025 cases (760 African Americans and 1265 whites) and for 1812 controls (677 African Americans and 1135 whites). RESULTS: The odds ratio for MnSOD Ala/Ala versus any MnSOD Val genotypes was not elevated in African Americans (odds ratio = 0.9, 95% confidence interval = 0.7-1.2) or in whites (odds ratio = 1.0, 95% confidence interval = 0.8-1.2). Greater than additive joint effects were observed for the Ala/Ala genotype and smoking, radiation to the chest, and occupational exposure to ionizing radiation. Antagonism was observed between the Ala/Ala genotype and the use of nonsteroidal anti-inflammatory drugs. CONCLUSIONS: The MnSOD genotype may contribute to an increased risk of breast cancer in the presence of specific environmental exposures. These results provide further evidence for the importance of reactive oxygen species and of oxidative DNA damage in the etiology of breast cancer.