Molecular responses to 17 beta-estradiol in early life stage salmonids
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| Authors: | Marlatt, VL; Sun, JY; Curran, CA; Bailey, HC; Kennedy, CK; Elphick, JR; Martyniuk, CJ |
| Year: | 2014 |
| Journal: | General and Comparative Endocrinology 203: 203-214 Article Link (DOI) PubMed |
| Title: | Molecular responses to 17 beta-estradiol in early life stage salmonids |
| Abstract: | Environmental estrogens (EE) are ubiquitous in many aquatic environments and biological responses to EEs in early developmental stages of salmonids are poorly understood compared to juvenile and adult stages. Using 17 beta-estradiol (E2) as a model estrogen, waterborne exposures were conducted on early life stage rainbow trout (Oncorhynchus mykiss; egg, alevin, swim-up fry) and both molecular and physiological endpoints were measured to quantify the effects of E2. To investigate developmental stage-specific effects, laboratory exposures of 1 mu g/L E2 were initiated pre-hatching as eyed embryos or post-hatching upon entering the alevin stage. High mortality (similar to 90%) was observed when E2 exposures were initiated at the eyed embryo stage compared to the alevin stage (similar to 35% mortality), demonstrating stage-specific sensitivity. Gene expression analyses revealed that vitellogenin was detectable in the liver of swim-up fry, and was highly inducible by 1 mu g/L E2 (>200-fold higher levels compared to control animals). Experiments also confirmed the induction of vitellogenin protein levels in protein extracts isolated from head and tail regions of swim-up fry after E2 exposure. These findings suggest that induction of vitellogenin, a well-characterized biomarker for estrogenic exposure, can be informative measured at this early life stage. Several other genes of the reproductive endocrine axis (e.g. estrogen receptors and androgen receptors) exhibited decreased expression levels compared to control animals. In addition, chronic exposure to E2 during the eyed embryo and alevin stages resulted in suppressive effects on growth related genes (growth hormone receptors, insulin-like growth factor 1) as well as premature hatching, suggesting that the somatotropic axis is a key target for E2-mediated developmental and growth disruptions. Combining molecular biomarkers with morphological and physiological changes in early life stage salmonids holds considerable promise for further defining estrogen action during development, and for assessing the impacts of endocrine disrupting chemicals in vivo in teleosts. (C) 2014 Elsevier Inc. All rights reserved. |
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