Sex with knockout models: behavioral studies of estrogen receptor alpha

Abstract

Estrogens are an important class of steroid hormones, having multiple targets, in the body and brain, and exerting ubiquitous effects on behavior. At present, two estrogen receptors (ERalpha and beta) have been cloned and sequenced in mammals. In the brain these receptors are regionally specific, but both have widespread distributions, which are largely non-overlapping. Given the newly emerging complexities of estrogen's mechanisms of action it is important to distinguish which pathways are involved in modifying which behaviors. We use a knockout mouse, lacking functional copies of the estrogen receptor alpha (ERalpha) gene, to study the mechanisms by which estrogens mediate behaviors. There are pronounced ramifications of ERalpha gene disruption on behavior. First, female ERalpha knockout (ERalphaKO) mice do not display normal feminine sexual behavior. Second, treatment of adult mice with androgens promotes masculine sexual behavior in both sexes. However, male-typical sexual behavior is severely compromised in male and female ERalphaKOs. Third, male ERalphaKOs do not exhibit the same social preferences for female mice as do wildtype (WT) littermates. Thus, the ERalpha is essential for normal expression of sexual behaviors. In addition, gonadectomized ERalphaKO and WT mice rapidly learn to escape from the Morris water maze. Exogenous estrogen treatment prevents WT females from learning this task, yet, has no effect in ERalphaKO mice, suggesting that estrogens effects on learning in adult females involves the ERalpha. Based on these data we hypothesize that ERalpha mediates many of the effects of estrogen on sexual behavior, learning, and memory.