The 17 alpha and 17 beta isomers of estradiol both induce rapid spine synapse formation in the CA1 hippocampal subfield of ovariectomized female rats

Previous studies have demonstrated that estradiol-17beta and estradiol-17alpha both induce short-latency effects on spatial memory in rats, estradiol-17alpha being at least as potent as its 17beta isomer. To determine whether the mechanisms underlying these behavioral responses might include effects on hippocampal synaptic plasticity, CA1 pyramidal spine synapse density (PSSD) was measured in ovariectomized rats within the first few hours after sc estrogen injection. PSSD increased markedly (by 24%) 4.5 h after the administration of 45 mug/kg estradiol-17beta. The PSSD response was significantly greater (44% above control) 30 min after estradiol-17beta injection and was markedly dose dependent; a 3-fold lower estradiol-17beta dose (15 mug/kg) did not significantly affect CA1 PSSD at either 30 min or 4.5 h. Estradiol-17alpha was a more potent inducer of PSSD than estradiol-17beta. Dose-response analysis determined an ED50 for the effect of estradiol-17alpha on PSSD of 8.92+/-1.99 mug/kg, with a maximal response at 15 mug/kg. These results demonstrate that high doses of estradiol induce rapid changes in CA1 PSSD. CA1 spine synapse formation appears to be more sensitive to estradiol-17alpha than to estradiol-17beta, paralleling previous data on the effects of these two steroids on spatial memory. Rapid remodeling of hippocampal synaptic connections may thus contribute to the enhancement of spatial mnemonic processing observed within the first few hours after estrogen treatment. The potency of estradiol-17alpha suggests that hormone replacement therapy using this steroid might be useful clinically in ameliorating the impact of low endogenous estrogen production on the development and progression of neurodegenerative disorders involving the hippocampus.