Estrogen receptor specificity for the effects of estrogen in ovariectomized mice.

Estrogen exerts a variety of important physiological effects, which have been suggested to be mediated via the two known estrogen receptors (ERs), alpha and beta. Three-month-old ovariectomized mice, lacking one or both of the two estrogen receptors, were given estrogen subcutaneously (2.3 micro g/mouse per day) and the effects on different estrogen-responsive parameters, including skeletal effects, were studied. We found that estrogen increased the cortical bone dimensions in both wild-type (WT) and double ER knockout (DERKO) mice. DNA microarray analysis was performed to characterize this effect on cortical bone and it identified four genes that were regulated by estrogen in both WT and DERKO mice. The effect of estrogen on cortical bone in DERKO mice might either be due to remaining ERalpha activity or represent an ERalpha/ERbeta-independent effect. Other effects of estrogen, such as increased trabecular bone mineral density, thymic atrophy, fat reduction and increased uterine weight, were mainly ERalpha mediated.

Estrogen receptor beta in breast cancer.

Estrogen is essential for normal growth and differentiation in the mammary gland. It also supports growth of approximately 50% of primary breast cancers. For this reason, removal of estrogen or blocking of its action with the anti-estrogen, tamoxifen, is the main treatment for estrogen receptor alpha (ERalpha)-positive tumors. In 1996, when oncologists became aware of a second ER, ERbeta, there was some doubt as to whether this receptor would be of importance in breast cancer because the clinical consensus was that responsiveness to tamoxifen is related to the presence of ERalpha in breast cancer. Today we know that ERalpha and ERbeta have distinct cellular distributions, regulate separate sets of genes and can oppose each other's actions on some genes. We also know that ERbeta is widely expressed in both the normal and malignant breast and that there are proliferating cells in the breast which express ERbeta. In this review we summarize what is known about ERbeta in breast cancer and examine the possibility that ERbeta-selective ligands may well represent a useful class of pharmacological tools with a novel target, namely proliferating cells expressing ERbeta.

Localization of oestrogen receptors alpha and beta in human testis.

Cellular localization of oestrogen receptor alpha (ERalpha) and beta (ERbeta) proteins were studied in human testis samples using immunohistochemistry, and the expression of the corresponding mRNA was examined with reverse transcription-polymerase chain reaction (RT-PCR). Seven men, aged 28-48 years, who underwent diagnostic testicular biopsy because of azoospermia or to give spermatozoa for intracytoplasmic injection for infertility treatment, donated tissue for the study. One of them had anejaculation but normally functioning testes, and one was diagnosed as having Sertoli cell-only syndrome (SCOS). In addition, expression of ERbeta protein was examined in one testis sample obtained from a man undergoing a sex change operation. Strong ERbeta immunoreactivity was detected in the nuclei of spermatogonia, spermatocytes and early developing spermatids. Elongating spermatids, mature spermatozoa, Sertoli and Leydig cells were all negative for ERbeta. The presence of ERbeta protein was confirmed in Western analysis. With RT-PCR, both wild-type ERbeta and ERbetacx, the isoform which represses wild-type ER function, were easily detected. In most cases, ERbetacx mRNA was more abundantly expressed than wild-type ERbeta. The patient with SCOS expressed neither ERbeta isoform. Neither ERalpha protein nor ERalpha mRNA was detected in any of the samples. We conclude that in the human testis, ERbeta is likely to be the ER that mediates the effects of oestrogen.

A role for estrogen receptor beta in the regulation of growth of the ventral prostate.

In normal rats and mice, immunostaining with specific antibodies revealed that nuclei of most prostatic epithelial cells harbor estrogen receptor beta (ERbeta). In rat ventral prostate, 530- and 549-aa isoforms of the receptor were identified. These sediment in the 4S region of low-salt sucrose gradients, indicating that prostatic ERbeta does not contain the same protein chaperones that are associated with ERalpha. Estradiol (E(2)) binding and ERbeta immunoreactivity coincide on the gradient, with no indication of ERalpha. In prostates from mice in which the ERbeta gene has been inactivated (BERKO), androgen receptor (AR) levels are elevated, and the tissue contains multiple hyperplastic foci. Most epithelial cells express the proliferation antigen Ki-67. In contrast, prostatic epithelium from wild-type littermates is single layered with no hyperplasia, and very few cells express Ki-67. Rat ventral prostate contains an estrogenic component, which comigrates on HPLC with the testosterone metabolite 5alpha-androstane-3beta,17beta-diol (3betaAdiol). This compound, which competes with E(2) for binding to ERbeta and elicits an estrogenic response in the aorta but not in the pituitary, decreases the AR content in prostates of wild-type mice but does not affect the elevated levels seen in ERbeta knockout (BERKO) mice. Thus ERbeta, probably as a complex with 3betaAdiol, is involved in regulating the AR content of the rodent prostate and in restraining epithelial growth. These findings suggest that ligands specific for ERbeta may be useful in the prevention and/or clinical management of prostatic hyperplasia and neoplasia.

Estrogen receptor (ER) beta, a modulator of ERalpha in the uterus.

Many of the effects of estrogens on the uterus are mediated by ERalpha, the predominant ER in the mature organ. Because of the poor reproductive capacity of ERbeta knockout (BERKO) female mice (small litter size, multiple-resorbed fetuses), the role of uterine ERbeta was explored. In the immature uterus, ERalpha and ERbeta are expressed at comparable levels in the epithelium and stroma, and 17beta-estradiol (E(2)) treatment decreases ERbeta in the stroma. The immature uterus of untreated BERKO mice exhibits elevated levels of progesterone receptor (PR) and the proliferation-associated protein, Ki-67. It also exhibits exaggerated responsiveness to E(2), as indicated by enlargement of the lumen, increase in volume and protein content of uterine secretion, induction of the luminal epithelial secretory protein, complement C3, and its regulatory cytokine IL-1beta, and induction of vascular endothelial growth factor and insulin-like growth factor 1 but not its receptor. As expected, E(2) increased PR in the stroma and decreased it in the luminal epithelium of wild-type mice. In the BERKO uterus, E(2) induced PR in the stroma but did not down-regulate it in the epithelium. Increased cell proliferation and exaggerated response to E(2) in BERKO suggest that ERbeta plays a role in modulation of the effects of ERalpha and in addition (or as a consequence of this) has an antiproliferative function in the immature uterus.