RT Journal Article SR Electronic T1 P I – 3–5 Gut microbiota modulation of arsenic species in breastmilk JF Occupational and Environmental Medicine JO Occup Environ Med FD BMJ Publishing Group Ltd SP A36 OP A37 DO 10.1136/oemed-2018-ISEEabstracts.90 VO 75 IS Suppl 1 A1 Lenters, Virissa A1 Iszatt, Nina A1 Stiboller, Michael A1 Francesconi, Kevin A A1 Stigum, Hein A1 Knight, Rob A1 Eggesbø, Merete YR 2018 UL http://oem.bmj.com/content/75/Suppl_1/A36.3.abstract AB Background/aim Presystemic biotransformation of metals by gut microbiota alters their bioaccessibility and toxicity in experimental studies. Humans are chronically exposed to arsenic through contaminated food and groundwater, and exposure occurs during critical periods of early-life development via transplacental and lactational transfer. We investigated if gut microbiota modulated arsenic speciation.Methods This study was based on the Norwegian HUMIS-NoMIC birth cohort. Total arsenic (tAs) and water-soluble arsenic species (including the organic forms dimethylarsinate and arsenobetaine) were quantified in breastmilk collected at one month postpartum. Gut microbiota was sequenced in maternal faecal samples collected 4 days postpartum using Illumina 16S rRNA amplicon analysis. We assessed associations between α-diversity (Shannon’s, phylogenetic, and OTU richness), β-diversity, and taxonomic composition of gut microbiota and the profile of arsenic species in breastmilk.Results The median (interquartile range) of tAs was 0.33 µg/kg (0.08–0.65). Both fatty and lean fish intake was strongly associated with arsenic concentrations in breastmilk. Increasing α-diversity measures were associated with decreasing tAs and also with specific arsenic species. There were no consistent associations for β-diversity. Preliminary analyses revealed associations between arsenic speciation and differential abundances of taxa.Conclusion There were indications that maternal gut microbiota modulated the chemical forms of arsenic presenting in breastmilk, although it was not possible to establish directionality of associations in this observational study. This warrants further research as gut microbiota are amenable to interventions and may modulate the toxicity of environmental metal exposures.