Presence of estrogen receptor beta in the human endometrium through the cycle: expression in glandular, stromal, and vascular cells.

The recent discovery of a new isoform of estrogen receptor (ER) beta has prompted the reexamination of estrogen action on target organs. Here, we describe the endometrial expression of human ERbeta and compare its distribution with that of ERalpha in the endometrial functional zone. Using immunocytochemistry with well characterized polyclonal antibodies against ERbeta, we have detected specific ERbeta expression in all endometrial compartments (glandular, stromal, and vascular); the specificity of the immunostaining is confirmed by lack of staining of the uterine sections with anti-ERbeta antibodies previously incubated with peptide preparation. The highest levels of ERbeta expression are observed in epithelial cells during the periovulatory period (days 14 and 15), as well as in stromal cells and cells of the vascular wall in the late-secretory phase; both smooth muscle cells and endothelial cells express ERbeta, as deduced from immunocytochemistry and RT-PCR analysis. ERbeta staining is usually low compared with that of ERalpha, except at days 24-26. The presence of ERbeta in decidualized stromal cells is deduced from immunocytochemistry using antismooth alpha-actin and anti-ERbeta antibodies or from RT-PCR analysis of ERbeta and insulin-like growth factor-BP transcripts in the same cells; the presence of ERbeta-positive stromal cells located close to vascular smooth muscle cells during this period suggests some specific role of this receptor during decidualization. ERalpha is also present in the cells of the endometrial vascular wall, in addition to the nuclei of glandular epithelial and stromal cells. Vascular ERalpha expression is highest during the periovulatory period, suggesting a regulation by estradiol, and a role in vascular function. Moreover, different variations of ERbeta and ERalpha in arterioles might have implications for the modulation of vascular function, possibly of vascular tone, during the menstrual cycle. Finally, these data suggest that ERbeta may have important roles in endometrial function, in addition to the well known role of ERalpha in endometrial proliferation and differentiation.