Effect of arsenic exposure on early eye development in zebrafish (Danio rerio)

Arsenic is a metalloid that contaminates drinking water supplies worldwide. Owing to concerns for human health, the World Health Organization and the US Environmental Protection Agency have established a safe level in drinking water of <= 10 ppb. Recently, arsenic exposure has also been linked to lower IQ values in children. The effect of arsenic on neurogenesis, specifically eye development, has not been widely explored. This study aimed to examine the effect of environmentally relevant concentrations of arsenic on early eye development by morphological and molecular analysis. The zebrafish, Danio rerio, was chosen to model the impact of arsenic on retinogenesis because of similarities to human eye development. Arsenic exposure to zebrafish embryos resulted in a significant increase in eye diameter at 14 days postfertilization. This was coupled with a trend in thinning of the retinal pigmented epithelium (RPE) layer in embryos exposed to 500 ppb arsenic. Reverse transcription-quantitative polymerase chain reaction analysis of genes associated with eye development revealed differential expression of Pax6a, Pax2a, Ngn1, Sox2 and Shha relative to control. Pax6a, Pax2a and Sox2 are important in the formation of the RPE. Proper formation of the RPE is necessary for growth of the sclera, which, in turn, is responsible for maintaining the shape of the eye. This could potentially be explained by the disruption of gene expression under arsenic exposure during critical time points in early eye development. These results provide insight into the effects arsenic may be having on early eye development in children exposed to contaminated drinking water supplies.