Effect of neonatal rat bisphenol A exposure on performance in the Morris water maze

Bisphenol A (BPA), an environmental estrogen, is a component of many food and beverage containers and can leach into the container contents over time. Due to its estrogenic properties, exposure to BPA during development could alter the appropriate maturation of pathways essential for normal cognitive function at later ages. To investigate this, the effects of repeated postnatal exposure of male and female rats to BPA on spatial learning and memory were investigated using a Morris water maze. Breeders and offspring were maintained on a standard phytoestrogen-free diet. Oral administration of 72 mug/kg 17beta-estradiol (E-2), 100 mug/kg BPA (low BPA), 250 mug/kg BPA (high BPA), or the safflower oil vehicle was performed daily from postnatal d 1 (PND1) through PND14. There were no treatment-related effects on swimming ability or motivation (PND33) or on acquisition of maze solution (PND34-37). However, acquisition of maze performance was significantly better in control males than in control females. Treatment with E-2 and low BPA disrupted this normal gender-dependent pattern of acquisition, while treatment with high BPA did not. In a probe trial (PND40), females treated with high BPA spent significantly less time in the escape quadrant. These data indicate that E-2 and low dosages of BPA can alter the normal gender-dependent pattern of acquisition, while higher dosages of BPA alter the retention of spatial information without significantly affecting acquisition.