Abstract
A wide variety of anthropogenic chemicals is detected in humans and wildlife and the health effects of various chemical exposures are not well understood. Early life stages are generally the most susceptible to chemical disruption and developmental exposure can cause disease in adulthood, but the mechanistic understanding of such effects is poor. Within the EU project EDC-MixRisk, a chemical mixture (Mixture G) was identified in the Swedish pregnancy cohort SELMA by the inverse association between levels in women at around gestational week ten with birth weight of their children. This mixture was composed of mono-ethyl phthalate, mono-butyl phthalate, mono-benzyl phthalate, mono-ethylhexyl phthalate, mono-isononyl phthalate, triclosan, perfluorohexane sulfonate, perfluorooctanoic acid, and perfluorooctane sulfonate. In a series of experimental studies, we characterized effects of Mixture G on early development in zebrafish models. Here, we studied apoptosis and Wnt/β-catenin signaling which are two evolutionarily conserved signaling pathways of crucial importance during development. We determined effects on apoptosis by measuring TUNEL staining, caspase-3 activity, and acridine orange staining in wildtype zebrafish embryos, while Wnt/β-catenin signaling was assayed using a transgenic line expressing an EGFP reporter at β-catenin-regulated promoters. We found that Mixture G increased apoptosis, suppressed Wnt/β-catenin signaling in the caudal fin, and altered the shape of the caudal fin at water concentrations only 20–100 times higher than the geometric mean serum concentration in the human cohort. These findings call for awareness that pollutant mixtures like mixture G may interfere with a variety of developmental processes, possibly resulting in adverse health effects.
Highlights
Humans and animals are exposed to mixtures of chemicals derived from a variety of sources as reflected by the large number of exogenous compounds found in blood and tissue samples (Bergman et al, 2013)
Most studies have focused on effects by individual compounds combined exposure to different chemicals probably is more important for health effects in the general population
We examined the effects of Mixture G on metabolic endpoints in developing zebrafish and found that it stimulates adipogenesis and alters metabolic rate (Mentor et al, 2019)
Summary
Humans and animals are exposed to mixtures of chemicals derived from a variety of sources as reflected by the large number of exogenous compounds found in blood and tissue samples (Bergman et al, 2013). Most studies have focused on effects by individual compounds combined exposure to different chemicals probably is more important for health effects in the general population. Low birth weight, defined by the World Health Organization (WHO) as a weight at birth less than 2500 g, is associated with an increased risk for disease and premature death (Risnes et al, 2011; Barker, 2012). In terms of environmental pollutants, maternal exposure to e.g., perfluorooctanoic acid (PFOA), cadmium, dioxin-like compounds, and ambient air pollution has shown negative associations with fetal growth or birth weight (Konishi et al, 2009; Pedersen et al, 2013; Knutsen et al, 2018; Khoshhali et al, 2019)
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