Abstract

Current estimates indicate that as many as 100 million people in over 70 countries are drinking water with arsenic (As) concentrations up to 100 times the World Health Organization (WHO) guideline of 10 ug per liter. There is significant variability in progression from As exposure to clinical manifestations of disease, and it is thought that genetic and nutritional factors may together account for a substantial portion of this variability. Thus, this proposal seeks to develop biomarkers that predict risk for the development of arsenicosis. Ingested inorganic As (InAs) is methylated to methylarsonic (MMA) and dimethylarsinic (DMA) acids via folate- dependent one-carbon metabolism. A reduced capacity to fully methylate As to DMA is associated with reduced urinary elimination of As. DMAV is less toxic and has a much shorter circulating half-live than InAs, and it is rapidly excreted in urine. There is great inter-individual variability in As methylation capacity, and epidemiological evidence, including our own, suggests that people who are """"""""good methylators"""""""" are at reduced risk for As-induced skin lesions, cancers and cardiovascular disease. However, a growing body of evidence from in vitro and laboratory animal studies indicates that the trivalent form of MMA, a requisite intermediate in the pathway toward DMA synthesis, is extremely toxic. Our work over the past several years in Bangladesh has made seminal findings regarding the strong impact of nutritional regulation of one-carbon metabolism on the inter-individual variability in As methylation, blood As levels, and risk for arsenic-induced skin lesions, e.g., our clinical trial demonstrated that folic acid supplementation lowered blood As and blood MMA concentrations. Our 1st aim is to conduct a nested case-control study of 1,000 incident premalignant skin lesion cases and 1,000 controls to test the hypotheses that the capacity to methylate As is influenced by As methyltransferase (AS3MT) genotypes and that AS3MT genotypes and As methylation are associated with risk for skin lesions. Our 2nd aim will examine whether polymorphisms in one-carbon metabolism candidate genes are associated with hyperhomocysteinemia (which is very common in this population, and is associated with reduced capacity to methylate As to DMA), with methylation of As, methylation of leukocyte DNA, and with risk for skin lesions. We will also examine whether these associations are influenced by folate status. Collectively, these aims will allow us to identify of a set of biomarkers (As metabolites, leukocyte DNA methylation, folate, B12, Hcys, and SNPs) to identify sub-groups of individuals who may be at increased risk for As-induced pathology utilizing biological specimens that are already in hand. These studies will also resolve the critical issue of whether or not a higher capacity to methylate As is beneficial. Results of these studies will create opportunities for evaluation of interventions among high risk groups. They will also result in the identification of biomarkers to facilitate targeted therapies that exploit the mechanisms involved in susceptibility, resulting in low-risk, low-cost therapeutic strategies that could potentially reduce disease risk for hundreds of thousands of people.

Public Health Relevance

Roughly 140 million people across 70 countries are exposed to excessive arsenic (As) in drinking water. There is significant variability in progression from As exposure to clinical manifestations of disease;genetic and nutritional factors may account for a substantial portion of this variability. Ingested inorganic As is methylated to methylarsonic and dimethylarsinic acids via folate-dependent one-carbon metabolism. A reduced capacity to fully methylate As is associated with reduced urinary elimination of As and is thought by many to be associated with increased risk for the development of an array of adverse As-related health outcomes. We wish to expand our studies which have made seminal findings concerning the strong impact of nutritional regulation of one-carbon metabolism on the inter-individual variability in As methylation, blood As levels, and risk for As-induced skin lesions. Collectively, our aims will allow us to identify of a set of biomarkers (As metabolites, leukocyte DNA methylation, folate, B12, Hcys, and SNPs) to identify sub-groups of individuals who may be at increased risk for As-induced pathology. Studying genetic influences on As metabolism and toxicity will also help us to unravel the basic pathobiology of arsenicosis. The nested case control study of premalignant As-induced skin lesions will help us to elucidate disease mechanisms and create extended opportunities for evaluation of targeted interventions among high risk groups. For example, they will result in the identification of biomarkers to facilitate targeted therapies that exploit the mechanisms involved in susceptibility, resulting in low-risk, low- cost therapeutic strategies that could potentially reduce disease risk for hundreds of thousands of people.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Environmental Health Sciences (NIEHS)
Type
Research Project (R01)
Project #
5R01ES017875-03
Application #
8197853
Study Section
Special Emphasis Panel (ZRG1-DKUS-C (90))
Program Officer
Mcallister, Kimberly A
Project Start
2010-02-01
Project End
2013-11-30
Budget Start
2011-12-01
Budget End
2012-11-30
Support Year
3
Fiscal Year
2012
Total Cost
$457,325
Indirect Cost
$167,201

  Institution

Name
Columbia University (N.Y.)
Department
Public Health & Prev Medicine
Type
Schools of Public Health
DUNS #
621889815
City
New York
State
NY
Country
United States
Zip Code
10032

  Publications

Niedzwiecki, Megan M; Liu, Xinhua; Zhu, Huiping et al. (2018) Serum homocysteine, arsenic methylation, and arsenic-induced skin lesion incidence in Bangladesh: A one-carbon metabolism candidate gene study. Environ Int 113:133-142
Muñoz, Alexandra; Eldridge, Will J; Jakobsen, Nina Munkholt et al. (2018) Cellular shear stiffness reflects progression of arsenic-induced transformation during G1. Carcinogenesis 39:109-117
Howe, Caitlin G; Liu, Xinhua; Hall, Megan N et al. (2017) Sex-Specific Associations between One-Carbon Metabolism Indices and Posttranslational Histone Modifications in Arsenic-Exposed Bangladeshi Adults. Cancer Epidemiol Biomarkers Prev 26:261-269
Howe, Caitlin G; Gamble, Mary V (2016) Influence of Arsenic on Global Levels of Histone Posttranslational Modifications: a Review of the Literature and Challenges in the Field. Curr Environ Health Rep 3:225-37
Hall, Megan N; Howe, Caitlin G; Liu, Xinhua et al. (2016) Supplementation with Folic Acid, but Not Creatine, Increases Plasma Betaine, Decreases Plasma Dimethylglycine, and Prevents a Decrease in Plasma Choline in Arsenic-Exposed Bangladeshi Adults. J Nutr 146:1062-7
Howe, Caitlin G; Liu, Xinhua; Hall, Megan N et al. (2016) Associations between Blood and Urine Arsenic Concentrations and Global Levels of Post-Translational Histone Modifications in Bangladeshi Men and Women. Environ Health Perspect 124:1234-40
Sanchez, Tiffany R; Levy, Diane; Shahriar, Mohammad Hasan et al. (2016) Provision of well-water treatment units to 600 households in Bangladesh: A longitudinal analysis of urinary arsenic indicates fading utility. Sci Total Environ 563-564:131-7
Argos, Maria; Chen, Lin; Jasmine, Farzana et al. (2015) Gene-specific differential DNA methylation and chronic arsenic exposure in an epigenome-wide association study of adults in Bangladesh. Environ Health Perspect 123:64-71
Muñoz, Alexandra; Chervona, Yana; Hall, Megan et al. (2015) Sex-specific patterns and deregulation of endocrine pathways in the gene expression profiles of Bangladeshi adults exposed to arsenic contaminated drinking water. Toxicol Appl Pharmacol 284:330-8
Reed, Michael C; Gamble, Mary V; Hall, Megan N et al. (2015) Mathematical analysis of the regulation of competing methyltransferases. BMC Syst Biol 9:69

Showing the most recent 10 out of 28 publications