Oral administration of estradiol to young C57BL/6J mice induces age-like neuroendocrine dysfunctions in the regulation of estrous cycles.

Exogenous estradiol (E2) can accelerate the onset of acyclicity and other age-related neuroendocrine changes in rodents. The present study demonstrates that chronic oral administration of E2 (850 micrograms/kg body wt/day) induces premature acyclicity in intact C57BL/6J mice. After 6 wk of E2, mice regained cyclicity but ceased cycling prematurely, whereas 12 wk of E2 caused permanent acyclicity in all mice. The acyclicity after 12 wk of E2 was not reversed by ovarian replacement from young donors, which implies extra-ovarian (neuroendocrine) lesions. The above studies with intact mice can not identify the contributions from exogenous E2 and endogenous ovarian sections and the possible impact of oral E2 on the ovary. Therefore, mice were ovariectomized (OVX) to remove ovarian contributions, treated for 12 wk with oral E2, and then were given young ovarian grafts and assayed for neuroendocrine functions. Approximately 50% of the E2-treated and grafted mice were permanently acyclic, whereas controls cycled well. Thus, oral E2 causes irreversible neuroendocrine damage. However, the presence of the ovary during E2 treatment increases the loss of cyclicity, implying a dose effect. We conclude that the induction of acyclicity is dependent on the dose and duration of E2 exposure.