Selective Activation of Zebrafish Estrogen Receptor Subtypes by Chemicals by Using Stable Reporter Gene Assay Developed in a Zebrafish Liver Cell Line

Overview

Journal Toxicol Sci

Publisher Oxford University Press

Specialty Toxicology

Date 2011 Nov 3

PMID 22045033

Citations 19

Authors

Anne Cosnefroy

Francois Brion

Emmanuelle Maillot-Marechal

Jean-Marc Porcher

Farzad Pakdel

Patrick Balaguer

Selim Ait-Aissa

Affiliations

Soon will be listed here.

Abstract

The number of environmental chemical contaminants suspected to act as endocrine disruptor compounds by interacting with estrogen receptor (ER) signaling pathway has been continuously increasing. To study such interaction, the use of stable reporter gene assays is relevant, but species-specific in vitro screening assays are still lacking to address hazard assessment of estrogenic chemicals in aquatic vertebrates. Here, we describe the development of stable reporter gene assays based on stable expression of subtypes of zebrafish ER (zfERα, zfERβ1, and zfERβ2) coupled to estrogen response element-driven luciferase in a zebrafish liver (ZFL) cell line. The three established cell models, named ZELH-zfERα, ZELH-zfERβ1, and ZELH-zfERβ2, expressed stable and significant basal luciferase signal, which was induced by 17β-estradiol (E2) in a sensitive and dose-response manner at EC(50)s of 0.2, 0.03, and 0.05 nM, respectively. In addition, E2 significantly altered cell proliferation in ZELH-zfERα and ZELH-zfERβ2 cells, but not in parental ZFL and ZELH-zfERβ1 cells, suggesting a functionality of these two receptors to modulate endogenous gene expression in the transfected clones. The screening of various xenoestrogens from different classes in the three models resulted in different luciferase response patterns. Natural and synthetic estrogens and 1,1,1-trichloro-2-(2 chlorophenyl)-2-(4-chlorophenyl)ethane were active at lower concentrations in ZELH-zfERβ1 and ZELH-zfERβ2 than in ZELH-zfERα cells, whereas genistein and zearalenone metabolites as well as three benzophenone derivatives preferentially activated zfERα. Altogether, the newly established models provide specific and convenient in vitro tool for comparative assessment of zfERs selective activation by chemicals within ZFL cell context.

Citing Articles

A review of sources, pathways, and toxic effects of human exposure to benzophenone ultraviolet light filters.

Yao Y, Wang Y, Zhang H, Gao Y, Zhang T, Kannan K Eco Environ Health. 2024; 3(1):30-44.

PMID: 38162868 PMC: 10757257. DOI: 10.1016/j.eehl.2023.10.001.

Matrix Softness-Mediated 3D Zebrafish Hepatocyte Modulates Response to Endocrine Disrupting Chemicals.

Sullivan K, Park C, Ito J, Kandel M, Popescu G, Kim Y Environ Sci Technol. 2020; 54(21):13797-13806.

PMID: 32975940 PMC: 8202163. DOI: 10.1021/acs.est.0c01988.

Embryo/larval toxicity and transcriptional effects in zebrafish (Danio rerio) exposed to endocrine active riverbed sediments.

Vigano L, Casatta N, Farkas A, Mascolo G, Roscioli C, Stefani F Environ Sci Pollut Res Int. 2020; 27(10):10729-10747.

PMID: 31942721 DOI: 10.1007/s11356-019-07417-8.

Triclosan Lacks Anti-Estrogenic Effects in Zebrafish Cells but Modulates Estrogen Response in Zebrafish Embryos.

Serra H, Brion F, Porcher J, Budzinski H, Ait-Aissa S Int J Mol Sci. 2018; 19(4).

PMID: 29649157 PMC: 5979399. DOI: 10.3390/ijms19041175.

Mixture Concentration-Response Modeling Reveals Antagonistic Effects of Estradiol and Genistein in Combination on Brain Aromatase Gene (cyp19a1b) in Zebrafish.

Hinfray N, Tebby C, Piccini B, Bourgine G, Ait-Aissa S, Porcher J Int J Mol Sci. 2018; 19(4).

PMID: 29614754 PMC: 5979603. DOI: 10.3390/ijms19041047.