Expression of estrogen receptors alpha and beta in the baboon fetal ovary

In adult mammals, estrogen regulates ovarian function, and estrogen receptor (ER) is expressed in granulosa cells of antral follicles of the adult baboon ovary. Because the foundation of adult ovarian function is established in utero, the present study determined whether ERalpha and/or ERbeta were expressed in fetal ovaries obtained on Days 100 (n = 3) and 165-181 (n = 5) of baboon gestation (term = Day 184). On Day 100, ERalpha protein was detected by immunocytochemistry in surface epithelium and mesenchymal-epithelial cells but not oocytes in germ cell cords. ERbeta protein was also detected by immunocytochemistry on Day 100 of gestation and was abundantly expressed in mesenchymal-epithelial cells in germ cell cords, lightly expressed in the germ cells, but was not detected in the surface epithelium. On Days 165-180 of gestation, ERalpha expression was still intense in the surface epithelium, in mesenchymal-epithelial cells throughout the cortex, and in nests of cells between follicles. ERalpha expression was lighter in granulosa cells and was not observed in all granulosa cells, particularly in follicles close to the cortex. In contrast, ERbeta expression was most intense in granulosa cells, especially in flattened granulosa cells, was weaker in mesenchymal-epithelial cells and nests of cells between follicles, and was absent in the surface epithelium. Using an antibody to the carboxy terminal of human ERbeta, ERbeta protein was also detected by Western immunoblot with molecular sizes of 55 and 63 kDa on Day 100 and primarily 55 kDa on Day 180. The mRNAs for ERalpha and ERbeta were also detected by Northern blot analysis in the baboon fetal ovary. These results are the first to establish that the ERalpha and ERbeta mRNAs and proteins are expressed and exhibit changes in localization in the primate fetal ovary between mid and late gestation. Because placental estrogen production and secretion into the baboon fetus increases markedly during advancing pregnancy, we propose that estrogen plays an integral role in programming fetal ovarian development in the primate.     

Expression of estrogen receptor beta is developmentally regulated in reproductive tissues of male and female mice

By the use of ribonuclease protection assay (RPA) combined with immunohistochemical techniques, the expression of estrogen receptor (ER) alpha and ERbeta was mapped in the developing gonads and reproductive tracts of male and female mice from fetal day 14 to postnatal day 26 (PND 26). This study was designed to determine the pattern of expression of both ER subtypes in specific tissue compartments during development. In ovaries, ERalpha mRNA was detected at all ages examined; ERbeta mRNA was seen as early as PND 1, and its expression increased with age. Immunolocalization showed ERbeta in differentiating granulosa cells of the ovary, whereas ERalpha was predominantly seen in interstitial cells. The remainder of the female reproductive tract showed ERalpha mRNA at all ages examined with little or no significant levels of ERbeta, except on PND 1 when a low level of message appeared. In males, ERalpha and ERbeta mRNA were detected in the fetal testis; however, ERbeta gradually increased until PND 5 and subsequently diminished to undetectable levels by PND 26. Immunolocalization showed ERalpha in the interstitial compartment of the testis, whereas ERbeta was seen predominantly in developing spermatogonia. The remainder of the male reproductive tract showed varying amounts of both receptors by RPA and immunostaining throughout development. These studies provide information useful in studying the role of both ER subtypes in normal differentiation, and they provide indications of differential tissue expression during development.     

Differential expression of estrogen receptor-alpha and -beta and androgen receptor in the ovaries of marmosets and humans

Estrogens and androgens are essential for the maturation of the ovarian follicle and normal fertility in the female. We have used antibodies specific for both forms of estrogen receptor (alpha [ERalpha] and beta [ERbeta]) and androgen receptor (AR) to investigate the pattern of receptor expression in ovaries obtained from women and from a New World primate, the Common marmoset (Callthrix jacchus). On Western blots, three antibodies directed against different peptides within human ERbeta all recognized recombinant human (h) ERbeta but did not bind to recombinant hERalpha. The ERbeta protein was extracted from human ovary and prostate and marmoset ovary. In marmoset and human ovaries, ERbeta protein was detected in the nuclei of granulosa cells in all sizes of follicle (both before and after formation of the antrum), and it was also detected in thecal cells, corpora lutea, surface epithelium, and stroma. In contrast, ERalpha protein was not detected in the nuclei of granulosa cells in preantral follicles, was low/absent from stromal and thecal cells, but was expressed in granulosa cells of antral follicles and in the surface epithelium. The pattern of expression of AR protein more closely resembled that of ERbeta than ERalpha. In conclusion, three independent antibodies have demonstrated convincingly that ERbeta is expressed in a wide range of cells in the primate ovary. Granulosa cells in preantral follicles could contain ERbeta:beta dimers. In antral follicles, however, ERalpha is also expressed, and the formation of homo- or heterodimers containing ERalpha may influence the pattern of gene activation within these cells.     

Quantitative analysis of estrogen receptor proteins in rat ovary

The mRNAs of estrogen receptor beta (ERbeta), and its splice variant, ERbeta2, are abundant in granulosa cells in the ovary. With the use of antibodies, ERbeta protein has also been shown to be abundantly expressed, but to date no ERbeta2 protein has been demonstrated in the ovary. ERbeta2 has a peptide, 18 amino acids in length, inserted into its ligand-binding domain, resulting in a reported 35-fold reduction in its affinity for estrogen (E2). ERalpha, ERbeta1 and ERbeta2 were quantified by Western blotting and by RT-PCR and their cellular localization in the ovary was examined by immunohistochemistry. In 3- and 5-week-old virgin, pregnant, lactating and post-lactating rats, the level of ERalpha protein ranged between 1.6 and 3.8 fmol/microg total protein. That of ERbeta was 8.8-11.2 and of ERbeta2, in the same samples, 4.1-5.9 fmol/microg total protein. ERbeta2 and ERbeta1 proteins were, therefore, present in approximately equal amounts in the ovary throughout the various reproductive stages. The major ERbeta proteins in rat ovary, detected by their molecular weights on Western blots, were ERbeta1-530 and ERbeta2-548 (530+18 amino acids (aa)). Immunohistochemical staining revealed that ERbeta and ERbeta2 were expressed predominantly in granulosa cells of growing follicles, while ERalpha was found only in theca cells. In some theca cells, both ERalpha, ERbeta2 were expressed. The data suggests that in theca cells, where it is co expressed with ERalpha, ERbeta2 could function as a repressor of ERalpha. However, in granulosa cells where no ERalpha is detectable, and where E2 levels are high, ERbeta2, with its low affinity for E2, could be an important sensor through which E2 exerts regulatory control.     

Expression of estrogen receptor and aromatase mRNAs in embryonic and posthatch zebra finch brain

Male zebra finches sing and females normally do not. This sexually dimorphic behavior is mediated by a sexually dimorphic series of interconnected nuclei that are larger and more developed in males. Estradiol administered to females as early as the day of hatching (P1) causes profound masculinization of this song system. The exact timing of estrogen action is unknown, and there is little information concerning the times and sites of expression of estrogen receptors and aromatase before P5. We measured the expression of mRNAs encoding these proteins in brain during late embryogenesis and on P1 to determine if estrogen synthesis or receptor-mediated actions on the song system, as part of the program of sexual differentiation, might be possible during this period. Using highly sensitive and specific in situ hybridization procedures for mRNAs encoding ERalpha, ERbeta, and aromatase, we detected mRNA for ERs in archistriatal regions as early as embryonic stage 34, and in diencephalic regions as early as embryonic stage 30. ERalpha mRNA was also detected in the dorsal mesencephalon at P1. Aromatase mRNA expression was present as early as embryonic stage 30 in diencephalic and mesencephalic regions. No obvious sex differences in the spatio-temporal pattern of mRNA expression were detected. Our results suggest that estrogen can influence cell growth and differentiation in zebra finch brain well before hatching and into posthatching life. The results fail to provide support for the hypothesis that sexual differentiation of the song system is mediated by sex differences in the expression of these mRNAs at these ages.     

Estrogen receptor subtypes localization shifts in cultured mouse ovarian follicles

Estrogens play an important role in the growth, differentiation, and function of female reproductive tissues. Estrogen signals through estrogen receptors (ERs), members of the nuclear receptor superfamily. The two major forms, ERalpha and ERbeta, are expressed in the mouse ovary, where ERbeta is predominantly expressed in granulosa cells, and ERalpha in theca cells. In this study, we determined the expression pattern of ER subtypes within mouse follicles cultured from the early preantral stage up to the preovulatory stage and after an ovulatory stimulus in different culture conditions. Immunohistochemical studies performed at different time points of culture revealed that ERbeta was found exclusively in granulosa cell nuclei regardless of follicular growth stage or culture conditions. In contrast, ERalpha was found in oocyte, granulose, and theca cells, and its subcellular localization differed between follicular growth stages and culture conditions. A shift from a predominant cytoplasmic to a predominant nuclear immunolocalization was observed in granulosa cells as follicles reached the antral growth phase, and was postponed in culture conditions with minimal growth factor supplementation. In response to hCG, ERbeta protein levels in luteinized granulosa cells spectacularly declined to undetectable levels, while ERalpha immunostaining again shifted to cytoplasmic regions, but not in theca cells.     

Regulation of progesterone receptors and decidualization in uterine stroma of the estrogen receptor-alpha knockout mouse

Regulation of progesterone receptor (PR) in uterine stroma (endometrial stroma plus myometrium) by estrogen was investigated in estrogen receptor-alpha (ERalpha) knockout (alphaERKO) mice. 17 beta-Estradiol (E(2)) increased PR levels in uterine stroma of ovariectomized alphaERKO mice, and ICI 182 780 (ICI) inhibited this E(2)-induced PR expression. Estrogen receptor-beta(ER beta) was detected in both uterine epithelium and stroma of wild-type and alphaERKO mice by immunohistochemistry. In organ cultures of alphaERKO uterus, both E(2) and diethylstilbestrol induced stromal PR, and ICI inhibited this induction. These findings suggest that estrogen induces stromal PR via ERbeta in alphaERKO uterus. However, this process is not mediated exclusively by ERbeta+, because in ERbeta knockout mice, which express ERalpha, PR was up-regulated by E(2) in uterine stroma. In both wild-type and alphaERKO mice, progesterone and mechanical traumatization were essential and sufficient to induce decidual cells, even though E(2) and ERalpha were also required for increase in uterine weight. Progesterone receptor was strongly expressed in decidual cells in alphaERKO mice, and ICI did not inhibit decidualization or PR expression. This study suggests that up-regulation of PR in endometrial stroma is mediated through at least three mechanisms: 1) classical estrogen signaling through ERalpha, 2) estrogen signaling through ERbeta, and 3) as a result of mechanical stimulation plus progesterone, which induces stromal cells to differentiate into decidual cells. Each of these pathways can function independently of the others.     

Immunolocalization of estrogen receptor beta in the epididymis of mature and immature pigs

A growing body of evidence suggests a role of estrogens in the male reproduction via their specific estrogen receptors (ERalpha/ERbeta). Estrogen receptor distribution along the genital tract tissues has been described in different species, but it is unknown in the pig. Therefore, the aim of the present study was to localize ERbeta in the epididymis of mature and immature pigs (aged 2 and 18 months, respectively). Immunohistochemistry was carried out on paraffin-embedded tissues using a mouse anti-human monoclonal IgG against ERbeta as the primary antibody, and a goat anti-mouse biotinylated IgG as the secondary antibody. Avidin-biotin-peroxidase complex was then applied followed by diaminobenzidine. In immature pigs, the epithelial cells from the caput, corpus and cauda epididymis showed no or very weak immunoreactivity for ERbeta, whereas they were all strongly immmunoreactive in mature pigs. A various intensity of immunostaining from weak to strong in the smooth muscle cells as well as in the connective tissue cells were detected in the epididymis of both, young and adult pigs. This is the first report on the cellular localization of ERbeta protein in porcine epidydimis. The present study demonstrated that (1) irrespectively of the epididymal region, the epithelial cells of caput, corpus and cauda epididymis of mature pigs revealed a strong immunoreactivity for ERbeta, and (2) ERbeta expression in the epididymal epithelium is regulated by puberty. Finally, although the biological activity of ERbeta has not yet been established, the results of the present study suggest its involvement in estrogen modulation of pig epididymal function.     

白细胞介素2对大鼠垂体前叶细胞雌激素受体蛋白含量和基因表达的影响

采用原代无血清细胞培养技术结合免疫组织（细胞）化学和半定量反转录－ＰＣＲ方法,观察白细胞介素２（ＩＬ－２）对大鼠垂体前叶雌激素受体（ＥＲ）蛋白含量和基因表达的影响,以探讨ＩＬ－２和ＥＲ在大鼠重体前叶的相互关系。结果显示：在大鼠垂体前叶细胞有ＩＬ－２受体表达。在无血清培养条件下,ＩＬ－２能增加ＥＲα蛋白含量,促进ＥＲα基因表达,而对ＥＲβ的作用正好相反,ｒｈＩＬ－２（１０μｇ／Ｌ）作用４８ｈ后,ＥＲ     

Expression of estrogen receptors in the efferent ductule of male sheep fetuses during gestation

There is as yet no report about the developmental changes of estrogen receptors (ERs) in the male reproductive system of the sheep fetus. In the present study, the testis, efferent ductule, and epididymis of sheep fetuses were collected at days 70, 90, and 120 of gestation and in the newborn lamb. ER alpha (ERalpha) and ER beta (ERbeta) were detected by immunohistochemistry. The results showed that ERbeta staining was negative in all of the examined tissues throughout gestation, whereas ERalpha immunoreactivity was only located in the nuclei of the efferent ductule epithelium. In addition, both ERalpha staining intensity and the number of ERalpha-positive cells were higher at day 90 of gestation, compared with that at day 70 and at birth. These results suggest that estrogen may play important roles in efferent ductule development in sheep fetuses.     

Natural killer cells express estrogen receptor-alpha and estrogen receptor-beta and can respond to estrogen via a non-estrogen receptor-alpha-mediated pathway

Natural killer (NK) cells play a crucial role in host defense against pathogens and immune surveillance against cancer. Given that estrogens have been reported to suppress NK cell activity, we sought to elucidate the mechanisms by which estrogen mediates this effect. We demonstrate by immunocytochemical staining with estrogen receptor-alpha (ERalpha)- and estrogen receptor-beta (ERbeta)-specific antibodies that both ERalpha and ERbeta are expressed in murine NK cells. We also compared the ability of high doses of 17beta-estradiol ( approximately 800 pg/ml) to regulate NK cell activity in wild-type and estrogen receptor-alpha-deficient (ERalphaKO) mice. 17beta-estradiol elicited a significant decrease in NK cell activity in both wild-type and ERalphaKO mice (P < 0.001). These data suggest that ERbeta or possibly a novel receptor is involved in mediating estrogen action on NK cell activity and raise the potential for therapeutic modulation of NK cell activity with selective estrogen receptor modulators (SERMS).