Phenotypic and Functional Outcomes in Macrophages Exposed to an Environmentally Relevant Mixture of Organophosphate Esters in Vitro.
Autor: | Giles, Braeden H.1,2, Kukolj, Nikola1,2, Mann, Koren K.1,2, Robaire, Bernard1,3 bernard.robaire@mcgill.ca |
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Předmět: |
*Antibiotics
*Dust *Homeostasis *Organophosphorus compounds *Environmental exposure *Pollutants *Plasticizers *Toxicity testing *Biomarkers *Gram-negative bacteria Lipid analysis Cardiovascular disease related mortality In vitro studies Flow cytometry Lysosomes Fluorescent dyes Macrophages Mononuclear leukocytes Phospholipids Research funding Functional assessment Immunoglobulins In vivo studies Oxidative stress Immune system Immunodiagnosis Cell motility Descriptive statistics Fireproofing agents Cell lines Cell culture Reactive oxygen species Cholesterol Analysis of variance Microscopy Cytokines Comparative studies Phenotypes Immunologic diseases Gram-positive bacteria Phagocytosis Cell surface antigens Disease complications |
Zdroj: | Environmental Health Perspectives. Aug2024, Vol. 132 Issue 8, p087002-1-087002-13. 13p. |
Abstrakt: | BACKGROUND: Organophosphate esters (OPEs) are flame retardants and plasticizers used in consumer products. OPEs are found ubiquitously throughout the environment with high concentrations in indoor house dust. Exposure to individual OPEs is associated with immune dysfunction, particularly in macrophages. However, OPEs exist as complex mixtures and the effects of environmentally relevant mixtures on the immune system have not been investigated. OBJECTIVES: The objectives of this study were to evaluate the toxicity of an environmentally relevant mixture of OPEs that models Canadian house dust on macrophages using phenotypic and functional assessments in vitro. METHODS: High-content live-cell fluorescent imaging for phenotypic biomarkers of toxicity in THP-1 macrophages treated with the OPE mixture was undertaken. We used confocal microscopy and cholesterol analysis to validate and expand on the observed OPE-induced lipid phenotype. Then, we used flow cytometry and live-cell imaging to conduct functional tests and uncover mechanisms of OPE-induced phagocytic suppression. Finally, we validated our THP-1 findings in human primary peripheral blood mononuclear cells (hPBMC) derived macrophages. RESULTS: Exposure to non-cytotoxic dilutions of the OPE mixture resulted in higher oxidative stress and disrupted lysosome and lipid homeostasis in THP-1 and primary macrophages. We further observed that phagocytosis of apoptotic cells in THP-1 and primary macrophages was lower in OPE-exposed cells vs. controls. In THP-1 macrophages, phagocytosis of both Gram-positive and Gram-negative bacteria was also lower in OPE-exposed cells vs. controls. Additionally, the OPE mixture altered the expression of phagocytic receptors linked to the recognition of phosphatidylserine and pathogen-associated molecular patterns. DISCUSSION: The results of this in vitro study suggested that exposure to an environmentally relevant mixture of OPEs resulted in higher lipid retention in macrophages and poor efferocytic response. These effects could translate to enhanced foam cell generation resulting in higher cardiovascular mortality. Furthermore, bacterial phagocytosis was lower in OPE-exposed macrophages in an in vitro setting, which may indicate the potential for reduced bacterial clearance in models of infections. Taken together, our data provide strong evidence that mixtures of OPEs can influence the biology of macrophages and offer new mechanistic insights into the impact of OPE mixtures on the immune system. [ABSTRACT FROM AUTHOR] |
Databáze: | GreenFILE |
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