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Adipogenic and endocrine disrupting mixture effects of organic and inorganic pollutant mixtures

Chronic health conditions are rapidly increasing in prevalence and cost to society worldwide: in the US, >42 % of adults aged 20 and older are currently classified as obese. Exposure to endocrine disrupting chemicals (EDCs) has been implicated as a causal factor; some EDCs, termed “obesogens”, ca...

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Published in:The Science of the total environment 2023-06, Vol.876, p.162587-162587, Article 162587
Main Authors: Bérubé, Roxanne, LeFauve, Matthew K., Heldman, Samantha, Chiang, Yu-Ting Tiffany, Birbeck, Johnna, Westrick, Judy, Hoffman, Kate, Kassotis, Christopher D.
Format: Article
Language:English
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Summary:Chronic health conditions are rapidly increasing in prevalence and cost to society worldwide: in the US, >42 % of adults aged 20 and older are currently classified as obese. Exposure to endocrine disrupting chemicals (EDCs) has been implicated as a causal factor; some EDCs, termed “obesogens”, can increase weight and lipid accumulation and/or perturb metabolic homeostasis. This project aimed to assess the potential combination effects of diverse inorganic and organic contaminant mixtures, which more closely reflect environmentally realistic exposures, on nuclear receptor activation/inhibition and adipocyte differentiation. Herein, we focused on two polychlorinated biphenyls (PCB-77 and 153), two perfluoroalkyl substances (PFOA and PFOS), two brominated flame retardants (PBB-153 and BDE-47), and three inorganic contaminants (lead, arsenic, and cadmium). We examined adipogenesis using human mesenchymal stem cells and receptor bioactivities using luciferase reporter gene assays in human cell lines. We observed significantly greater effects for several receptor bioactivities by various contaminant mixtures relative to individual components. All nine contaminants promoted triglyceride accumulation and/or pre-adipocyte proliferation in human mesenchymal stem cells. Comparing simple component mixtures to individual components at 10 % and 50 % effect levels revealed putative synergistic effects for each of the mixtures for at least one of the concentrations relative to the individual component chemicals, some of which also exhibited significantly greater effects than the component contaminants. Our results support further testing of more realistic and complex contaminant mixtures that better reflect environmental exposures, in order to more conclusively define mixture responses both in vitro and in vivo. [Display omitted] •Assessed potential combination effects of inorganic and organic contaminant mixtures.•Greater than expected activity observed for mixtures on nuclear receptor bioactivities.•Greater than expected activity observed for mixtures on adipogenesis in human mesenchymal stem cells.•Results support further testing of more complex contaminant mixtures that better reflect environmental exposures.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2023.162587