Genetic Susceptibility to Arsenic Exposure and Arsenical Skin Lesion Prevalence in Bangladesh

Abstract

Genetic Susceptibility to Arsenic Exposure and Arsenical Skin Lesion Prevalence in Bangladesh Maria Argos Elevated concentrations of arsenic in groundwater pose a public health threat to millions of people worldwide. While arsenic is an established human carcinogen, a mode of action has yet to be determined for arsenic carcinogenesis. However, the oxidative stress and DNA repair pathways have been implicated in arsenic toxicity and have been hypothesized to underlie arsenic carcinogenesis. To date, few epidemiologic studies have evaluated genetic susceptibility to arsenical skin lesions based on single nucleotide polymorphisms (SNPs) in antioxidant enzyme or DNA repair genes. Utilizing crosssectional data from the 2000-2002 survey of the Health Effects of Arsenic Longitudinal Study (HEALS) for 610 prevalent arsenical skin lesion cases and 1,079 randomly selected controls, I evaluated the associations of SNPs in genes encoding antioxidant enzymes and DNA repair enzymes on skin lesion prevalence. I also evaluated potential interactions between the SNPS as well as SNP-environment interactions in determining skin lesion prevalence. In the first study of this dissertation (Chapter 2), I assessed the relationship between SNPs in antioxidant enzyme genes and skin lesion prevalence, as well as possible interactions of these associations on the additive scale by various environmental factors. There were no statistically significant associations between these SNPs (SOD2, rs4880; CAT, rs1001179; GPX1, rs1050450; and MPO, rs2333227) and skin lesion prevalence. Additionally, there was no evidence of additive interaction by arsenic