The Impact of Bisphenol A Exposure on Implantation, Steroid Hormone Excretion, Uterine Morphology and Receptor Expression in Inseminated Female CF-1 Mice

Abstract

<p> Bisphenol-A (BPA), used in the production of polycarbonate plastics and epoxy resins, has established estrogenic properties. Early pregnancy in mice is highly sensitive to exogenous estrogens, particularly during the period of blastocyst implantation. Accordingly, I assessed pregnancy outcome, implantation, urinary hormone levels and uterine morphology following BPA exposure. Subcutaneous injections of BPA administered on days 1 through 4 of gestation reduced litter size at a dose of 3 mg/animal/day and decreased the proportion of parturient females at 10 mg/animal/day. Hysterectomies performed on day 6 of pregnancy confirmed a significant disruption of implantation occurring at doses as low as 6 mg/animal/day. Urinary progesterone levels were also reduced by 10 mg/animal/day. Uterine luminal area expanded substantially in response to increasing doses of BPA. Luminal epithelial cell height increased following exposure to 10.125 mg/animal, whereas there were no differences in the number of corpora lutea among conditions. The proportion of cells staining positively for estrogen receptors was affected non-monotonically, showing highest levels at 3.375 mg/animal and lowest levels at 10.125 mg/animal. Similarly progesterone receptor expression measured through western blots related non-monotonically to dose, being highest at 3.375 mg/animal and diminishing with increasing dose. Effects of a single administration of BPA on days 0, 1, or 2 of gestation were also investigated. A single dose of 10 mg reduced the number of implantation sites when given on day 0 or 1, and 6 mg did so on day 1, but there was no such effect of any dose administered on day 2. Exposure to low, environmentally-relevant doses of BPA did not result in any clear reproductive or hormonal effects. These studies highlight the detrimental effects BPA exposure induces during early pregnancy and provides further evidence of its weak estrogenic properties in vivo.</p>