Title: Interaction of plasma glutathione redox and folate deficiency on arsenic methylation capacity in Bangladeshi adults.

Authors: Niedzwiecki, Megan M; Hall, Megan N; Liu, Xinhua; Slavkovich, Vesna; Ilievski, Vesna; Levy, Diane; Alam, Shafiul; Siddique, Abu B; Parvez, Faruque; Graziano, Joseph H; Gamble, Mary V

Published In Free Radic Biol Med, (2014 Aug)

Abstract: Inorganic arsenic(As) is metabolized through a series of methylation reactions catalyzed by arsenic(III)-methyltransferase (AS3MT), resulting in the generation of monomethylarsonic (MMAs) and dimethylarsinic acids (DMAs). AS3MT activity requires the presence of the methyl donor S-adenosylmethionine, a product of folate-dependent one-carbon metabolism, and a reductant. Although glutathione (GSH), the primary endogenous antioxidant, is not required for As methylation, GSH stimulates As methylation rates in vitro. However, the relationship between GSH redox and As methylation capacity in humans is unknown. We wished to test the hypothesis that a more oxidized plasma GSH redox status is associated with decreased As methylation capacity and examine whether these associations are modified by folate nutritional status. Concentrations of plasma GSH and GSSG, plasma folate, total blood As (bAs), total urinary As (uAs), and uAs metabolites were assessed in a cross-sectional study of n=376 Bangladeshi adults who were chronically exposed to As in drinking water. We observed that a decreased plasma GSH/GSSG ratio (reflecting a more oxidized redox state) was significantly associated with increased urinary %MMA, decreased urinary %DMA, and increased total bAs in folate-deficient individuals (plasma folate ≤ 9.0 nmol/L). Concentrations of plasma GSH and GSSG were independently associated with increased and decreased As methylation capacity, respectively. No significant associations were observed in folate-sufficient individuals, and interactions by folate status were statistically significant. Our findings suggest that GSH/GSSG redox regulation might contribute to the large interindividual variation in As methylation capacity observed in human populations.

PubMed ID: 24726863

MeSH Terms: Adult; Aged; Arsenic/chemistry; Arsenic/metabolism*; Arsenicals/urine*; Bangladesh; Cacodylic Acid/urine*; Cross-Sectional Studies; Drinking Water; Environmental Exposure; Female; Folic Acid Deficiency/blood; Folic Acid/blood*; Glutathione Disulfide/blood; Glutathione/blood*; Glutathione/chemistry; Humans; Male; Methylation; Methyltransferases/metabolism*; Middle Aged; Oxidation-Reduction; S-Adenosylmethionine/chemistry