Abstract A86: Interaction of nitrate and folate on the risk of breast cancer among postmenopausal women

Abstract

Abstract Background: Ingested nitrate can form N-nitroso compounds endogenously, which may lead to DNA adducts and activating mutations in oncogenes. However, previous studies have reported null or inverse associations between dietary nitrate intake and cancer risk, while nitrate intake from drinking water has shown null or positive associations with cancer risk. These associations may be confounded by protective effects of dietary folate, which provides methyl groups for nucleotide synthesis, and thus plays a vital role in the DNA repair system. In a small case-control study, an increased risk of breast cancer was observed among individuals with high dietary nitrate relative to folate intake. We therefore evaluated interaction of total folate with nitrate intake from diet and drinking water on breast cancer risk in the Iowa Women's Health Study (IWHS). Methods: The IWHS is a prospective cohort study of cancer among 41,836 women in Iowa, initiated in 1986. Dietary intake was assessed at study baseline using a food frequency questionnaire (FFQ). Nitrate intake from foods and total folate intake from foods and dietary supplements were computed using consumption frequencies collected by the FFQ. Nitrate intake from drinking water was assessed using a historical analytical database on Iowa municipal water supplies in 15,151 women using municipal water supply. We evaluated the interaction of nitrate and total folate intake with breast cancer risk using Cox proportional hazard regression modeling, adjusting for potential confounders (age, body mass index, waist-hip-ratio, education, smoking, family history of breast cancer, age at menopause, age at first live birth, estrogen use, total energy intake, and intake of vitamin C and E and flavonoids). Results: After baseline exclusions (history of cancer at baseline, previous mastectomy or partial breast resection, implausible energy intake, or ≥30 missing responses on the FFQ), there were 34,388 postmenopausal women in the analytic cohort. Through 2008, 2,875 incident breast cancer cases were identified. Nitrate intake from diet or drinking water was not associated with breast cancer risk. After stratification by total folate intake, high dietary nitrate intake (>106.1 mg/day) was associated with a marginally decreased risk of breast cancer compared to those with low nitrate intake (≤106.1 mg/day) (HR=0.90, 95% confidence interval=0.81–1.00) only among women with folate intake <400 μg/day (p for interaction = 0.65). There was no interaction of nitrate intake from drinking water and total folate intake on breast cancer risk. Conclusions: Our findings do not support the previously reported increased risk of breast cancer risk among individuals with high dietary nitrate and low folate intake. The inverse association between nitrate intake and breast cancer risk observed among women with low folate intake in the present study may be attributed to residual confounding due to high correlation among intakes of nitrate, folate and antioxidants. Citation Information: Cancer Prev Res 2011;4(10 Suppl):A86.