Using transcriptomics and metabolomics to understand species differences in sensitivity to chlorpyrifos in Japanese quail and double-crested cormorant embryos
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ABSTRACT: Modern 21st century toxicity testing makes use of omics technologies to address critical questions in toxicology and chemical management. Of interest are questions relating to chemical mechanisms of toxicity, differences in species sensitivity, and translation of molecular effects to observable apical endpoints. Our study addressed these questions by comparing apical outcomes and multiple omics responses in early-life stage exposure studies with Japanese quail (JQ; Coturnix japonica) and double crested cormorant (DCCO; Phalacrocorax auritus), representing a model and ecological species, respectively. Specifically, we investigated the dose-dependent response of apical outcomes, transcriptomics, and metabolomics in the liver in each species exposed to chlorpyrifos (CPF), a widely used organophosphate pesticide. Our results revealed a clear pattern of dose-dependent disruption of gene expression and metabolic profiles in JQ but not DCCO at similar CPF exposure concentrations. The difference in effect sensitivity between species was likely due to higher metabolic transformation of CPF in the precocial JQ compared to the more altricial DCCO. The most impacted biological pathways after CPF exposure in JQ included hepatic metabolism, oxidative stress, endocrine disruption (steroid and non-steroid hormones), and metabolic disease (lipid and fatty acid metabolism). Importantly, we show consistent responses across biological scales, suggesting that significant disruption at the level of gene expression and metabolite profiles leads to observable apical responses at the organism level. Our study demonstrates the utility of evaluating effects at multiple biological levels of organization to understand how modern toxicity testing relates to outomes of regulatory relevance, while also highlighting important, yet poorly understood, species differences in sensitivity to chemical exposure.
ORGANISM(S): Coturnix japonica Phalacrocorax auritus
PROVIDER: GSE179770 | GEO | 2021/07/15
REPOSITORIES: GEO
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