News from the molecular frontier. Review of Paternity in Primates: Genetic Tests and Theories R. D. Martin,A. F. Dixson,E. J. Wickings eds. Karger, 1992, xi + 287 pp, $198.50

We have previously demonstrated that the exogenous administration of estradiol-17β (E₂) to rhesus monkeys induces atresia of the dominant preovulatory follicle (DF); and that this effect is mediated centrally, via the inhibition of follicle-stimulating hormone, and is also exerted directly at the level of the ovarian granulosa cell. We wished to investigate whether the local effect of E₂ is transduced through interaction with the nuclear receptor for estrogen, particularly in light of certain evidence that suggests a general lack of estrogen receptor (E-R) in the rhesus monkey ovary, except in the germinal epithelium. In the present study, we evaluated the presence of E-R by both autoradiographic and immunocytochemical techniques. Frozen sections of ovaries from rhesus females were incubated in experiment 1 with either ³H-E₂ or ¹²⁵I-E₂, in the presence or absence of excess, non-radioactive ligand or analogues diethylstilbestrol (DES) or the receptor antagonist 4-OH-tamoxifen (TAM). ³H-E₂ binding was most intense over functional corpora lutea, and was reduced to background with excess DES; label was also evident over antral follicles, Image analysis showed specific binding of ¹²⁵I-E₂ by ovaries. In experiment 2, cryostat sections were processed for immunocytochemical staining using the per-oxidase-anti-peroxidase (PAP) method and the H222 monoclonal antibody to the E-R. Intense, specific label was observed over nuclei of germinal epithelium, but, additionally, for the first time, to granulosa cells of antral follicles and other compartments of the ovary. In this paper, we report the first evidence for estrogen binding to rhesus monkey ovary; tins binding is specific, apparently receptor mediated, and corroborated independently by autoradiographic and immunocytochemical means. We herein provide substantial support for estrogen's dramatic effects being exerted directly at the level of the monkey ovary. © 1993 Wiley-Liss, Inc.     

Estrogen receptor protein and mRNA expression in the ovary of sheep

Using immunohistochemistry and in situ hybridization, we attempted to identify the estrogen receptor (ER) protein and messenger RNA (mRNA) in sheep ovaries during the follicular phase of the estrous cycle. Monoclonal anti-ER antibodies H222 and 1D5 were used for localizing estrogen receptor on ovarian cryo-sections. Labeling for ER was found over the nuclei of surface epithelium, interstitial tissue, and granulosa cells of small as well as large ovarian follicles. In the preantral and small antral follicles, intense nuclear ER labeling was observed in mural granulosa cells and particularly in cumulus/granulosa cells surrounding the oocyte. In the large healthy looking follicles, greater diversity in labeling for ER was observed, which is characterized by mixed populations of granulosa cells expressing positive and more or less negative nuclear labeling. Such a pattern of labeling was particularly evident in follicles showing the signs of atresia. Generally, more intense nuclear staining was localized in granulosa cells proximal to basal membrane. In situ hybridization studies revealed the presence of ER mRNA in ovarian tissue. Autoradiographic visualization localized ER mRNA expression over the granulosa cells of healthy follicles of all sizes. Level of hybridization signal was comparable in mural and cumulus granulosa cells. In atretic follicles, the level of hybridization signal in granulosa cells was comparable to that of healthy follicles. A relatively weaker level of labeling was observed in granulosa cells dispersed in follicular antrum in follicles with advanced atretic lesions. Theca cells expressed a lower level of labeling than granulosa cells. Specificity of labeling for both ER protein and mRNA in ovary was proved by parallel probing the ovine uterus. Ovine ER recognition by both H222 and 1D5 antibodies was also proved by immunoblotting. These studies demonstrate the presence of the estrogen receptor and its messenger RNA in the sheep ovary and suggest an autocrine/paracrine role of estradiol and its receptor in the regulation of ovarian follicle development in sheep. Mol. Reprod. Dev. 48:53–62, 1997. © 1997 Wiley-Liss, Inc.     

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.     

Estrous cycle-regulated expression of CYP1B1 mRNA in the rat ovary

CYP1B1, a member of the cytochrome p450 superfamily, is expressed constitutively in the steroidogenic tissues of mammals and is inducible by peptide hormones, cAMP and aromatic hydrocarbon receptor (AHR) ligands. The mechanism of induction of this cytochrome p450 is similar to that for CYP1A1, i.e. through the aromatic hydrocarbon receptor (AHR) signaling pathway. We have recently reported that CYP1B1, but not CYP1A1, is expressed in rat granulosa cells (GC) in the absence of any external stimulus. The induction of CYP1B1 mRNA in rat GC by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) in vitro was followed by an increase in AHR and estrogen receptor (ER-beta) RNA levels. Estrous cycle-dependent expression of AHR, AHR-nuclear translocator (ARNT) and ER-mRNAs in the rat ovary was reported. We suggest that CYP1B1 may play a major role in the regulation of rat ovarian function/cycle but until now this has been unexplored experimentally. The present study was therefore aimed at examining the expression of CYP1A1, CYP1B1 and ER-mRNA in rat ovarian tissues throughout the estrous cycle to establish any correlation in the expressions of these mRNAs in rat ovary. Total RNA was extracted from the ovary and liver of cycling adult rats and the mRNAs were analyzed using relative RT-PCR with gene-specific primers for the target mRNA and for RPL 19 or S16 primers as an internal control. The results indicated that in the ovary, CYP1B1 mRNA increased significantly on the evening of proestrus and dramatically decreased on the morning of estrus, while ER-mRNA remained unaltered throughout the estrous cycle. CYP1A1 mRNA in the ovary and both CYP1A1 and CYP1B1 mRNAs in the liver were undetectable. That the sudden decrease of ovarian CYP1B1 mRNA on the morning of estrus was not an effect of the LH surge was verified in vitro using our short-term GC culture model. GC prepared from rats super-stimulated with equine chorionic gonadotropin (eCG) were cultured for 6 h with or without LH and TCDD. It was observed that both CYP1A1 and CYP1B1 mRNAs were induced by TCDD with no apparent effect of LH. It is suggested that the high level of CYP1B1 mRNA expression on the evening of proestrus in rat ovary might be involved in metabolism of estrogens to catecholestrogen (a known effect of CYP1B1), and that expression is unaffected in GC by LH.     

Insulin-like growth factor binding protein 4 expression parallels luteinizing hormone receptor expression and follicular luteinization in the primate ovary

It has been suggested that locally produced insulin-like growth factor binding protein 4 (IGFBP4) inhibits ovarian follicular growth and ovulation by interfering with IGF action. According to this hypothesis, IGFBP4-expressing follicles should demonstrate atresia, whereas healthy dominant follicles should be devoid of IGFBP4. Alternatively, according to this view, there could be constitutive expression of the inhibitory IGFBP4 but selective expression of an IGFBP4 protease in dominant follicles, allowing the follicle to mature and ovulate because of degradation of the binding protein. To examine these views concerning the role of IGFBP4 in primate follicular selection, we analyzed cellular patterns of IGFs 1 and 2, IGFBP4, and the IGFBP4 protease (pregnancy-associated plasma protein A [PAPP-A]) mRNA expression in ovaries from late follicular phase rhesus monkeys using in situ hybridization. The IGF1 mRNA was not detected, but the IGF2 mRNA was abundant in theca interna and externa of all antral follicles and was present in the granulosa of large preovulatory and ovulatory follicles. The IGFBP4 mRNA was selectively expressed by LH receptor (LHR) mRNA-positive theca interna cells of healthy antral follicles (defined by aromatase and gonadotropin receptor expression) and by LHR-expressing granulosa cells found only in large preovulatory and ovulatory follicles (defined by size and aromatase expression). The PAPP-A mRNA was abundant in granulosa cells of most follicles without obvious relation to IGFBP4 expression. Ovarian IGFBP4 mRNA levels were markedly increased after treatment with the LH analog, hCG, whereas IGF2 and PAPP-A mRNAs were not significantly altered. In summary, IGFBP4 expression appears to be associated with follicular selection, not with atresia, in the monkey ovary. The IGFBP4 is consistently expressed in healthy theca interna and in luteinized granulosa cells, likely under LH regulation. The IGFBP4 protease, PAPP-A, is widely expressed without apparent selectivity for IGFBP4-expressing follicles or for dominant follicles. These observations suggest that IGFBP4 or an IGFBP4 proteolytic product may be involved with LH-induced steroidogenesis and/or luteinization rather than with inhibition of follicular growth.     

Localization of androgen receptor in the follicle and corpus luteum of the primate ovary during the menstrual cycle

Ovarian androgens may act locally to modulate follicular and luteal function in various species. This study examined the distribution of androgen receptors within the primate ovary throughout the menstrual cycle. Ovaries were collected from rhesus and cynomolgus monkeys during the early, mid-, and late (n = 3-5 per stage) follicular and luteal phases of the cycle. The tissues were processed for indirect immunocytochemical localization of androgen receptors with a specific monoclonal antibody against human androgen receptor (AN1-15). In addition, ovaries (n = 3) were collected from rhesus monkeys for biochemical detection of androgen receptor using 3H-androgen and AN1-15. Specific immunocytochemical staining, as determined by comparing adjacent tissue sections incubated with either AN1-15 or a nonspecific control antibody, was exclusively nuclear. Androgen receptor was detected in the germinal epithelium and ovarian stroma at all stages of the cycle. The thecal and granulosa cells of growing follicles, and of many but not all atretic follicles, contained androgen receptors. Luteinizing granulosa cells of the periovulatory follicle and luteal cells from the early and midluteal phase stained intensely for androgen receptor. Regressing corpora lutea of the late luteal phase also stained for androgen receptor; however, fully regressed corpora lutea in the early follicular phase of the next cycle did not exhibit receptor staining. Luteal cells that were androgen receptor-positive also stained histochemically for the presence of 3 beta-hydroxysteroid dehydrogenase. Sucrose gradient analysis with radiolabeled androgen demonstrated a shift in the androgen receptor peak in monkey ovarian tissue upon addition of AN1-15, confirming the presence of androgen receptor.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of methoxychlor on IGF-I signaling pathway in rat ovary

Follicular development and other ovarian functions are regulated by growth factors that can be affected by exogenous agents. Methoxychlor (MXC) is an organochloride pesticide that causes female infertility. We investigated how MXC affects the distribution of developing ovarian follicles in adult rats after treatment between embryonic day (E) 18 and postnatal day (PND) 7. We also measured insulin-like growth factor-I (IGF-I) and its receptor, IGF-IR, expressions in ovarian follicles and investigated whether MXC changed the levels of IGF-I and IGF-IR in the ovary. Using immunohistochemical (IHC) staining, we detected IGF-I expression in oocytes and granulosa cells of the follicles, luteal cells, interstitial cells, theca externa and theca interna, and the smooth muscle of ovarian vessels. IGF-IR was co-localized with IGF-I in the ovary except for the theca externa. IGF-I expression was decreased in granulosa cells of preantral and antral follicles after treatment with MXC compared to granulosa cells of preantral and antral follicles of the control group. We also observed that oocytes of secondary follicles and granulosa cells of secondary and preantral follicles of the MXC treated groups showed increased IGF-IR expression compared to oocytes of secondary follicles and granulosa cells of secondary and preantral follicles of the control group. We also detected more secondary and preantral follicles, and fewer primordial and antral follicles after MXC administration compared to controls. Therefore, the IGF signaling pathway may participate in MXC induced ovary dysfunction and female infertility.     

Evidence for gonadotropin-releasing hormone receptor mRNA expression by estrogen in rat granulosa cells

The hormonal regulation of ovarian gonadotropin-releasing hormone (GnRH) receptor mRNA expression has been examined by in situ hybridization in hypophysectomized immature rats. In hypophysectomized rats, GnRH receptor mRNA expression is localized in the interstitial cells. After diethylstilbestrol treatment, most follicles grow to form early antral follicles and express GnRH receptor mRNA in the peripheral part of the granulosa layer, indicating that the expression in the growing follicles is estrogen-dependent. Only weak or no expression of the receptor mRNA is detectable in the atretic follicles of hypophysectomized rats, whereas very strong expression has been observed in the granulosa cells of atretic follicles of intact immature rats. Administration of testosterone or a GnRH agonist, both of which are atretic agents for ovarian follicles, to hypophysectomized rats markedly increases the apoptotic cell death of the granulosa cells but fails to induce GnRH receptor mRNA expression. The co-administration of these agents with diethylstilbestrol causes the granulosa cells of atretic follicles to express the receptor mRNA very strongly, suggesting that this mRNA expression in the atretic follicles is also estrogen-dependent. On the other hand, expression of the receptor mRNA in the ovarian interstitial cells is not affected by hypophysectomy or hormone treatments. All of these results clearly indicate that estrogen is essential for the expression of ovarian GnRH receptor mRNA in the granulosa cells of atretic follicles and growing follicles, whereas the expression in the interstitial cells is estrogen-independent.     

Estrogen receptor alpha and beta expression in the porcine ovary

In order to investigate the expression of estrogen receptor alpha (ERalpha) and estrogen receptor beta (ERbeta) in the porcine ovary, in situ hybridization was applied. Specific ovine ERalpha and bovine ERbeta cDNA probes were labeled with [-32S]dCTP. In the porcine ovary, positive signals for ERbeta were found in both granulosa and theca cells of all types of antral follicles as well as in the corpora lutea at all stages of regression. ERalpha mRNA was limited exclusively to the granulosa cells of preovulatory follicles and was present in a few cells of early corpora lutea. Thus, we showed differential expression of ERalpha and ERbeta at the mRNA level. Large antral follicles and early corpora lutea are the site, where both forms of estrogen receptor are expressed.     

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.     

Localization of inhibin/activin subunit mRNAs within the primate ovary

In order to gain further understanding of the physiology of inhibin and activin in the primate, the expression of inhibin/activin subunit mRNAs in the monkey ovary was examined by in situ hybridization. Granulosa cells of small antral follicles were found to express mRNA for the beta B subunit, which decreased to undetectable levels in dominant follicles. In contrast, expression of alpha and beta A subunit mRNAs was detected in granulosa cells of dominant follicles and in corpora lutea, but not in small antral follicles. These results indicate that the expression of the beta A and beta B subunits is differentially regulated during the growth and development of ovarian follicles in the monkey.     

Expression of follicle stimulating hormone and luteinizing hormone receptors during follicular growth in the domestic cat ovary

In order to better understand the pituitary regulation of follicular growth in the domestic cat, follicle stimulating hormone (FSH) and luteinizing hormone (LH) receptors (R) were localized and quantified in relation to follicle diameter and atresia using in situ ligand binding on ovarian sections. Expression of FSHR was homogeneous and restricted to follicle granulosa cells from the early antral stage onwards, whereas expression of LHR was heterogeneous on theca cells of all follicles from the early antral stage onward, and homogeneous on granulosa cells of healthy follicles larger than 800 microm in diameter and in corpora lutea. LHR were also widely expressed as heterogeneous aggregates in the ovarian interstitial tissue. Atretic follicles exhibited significantly reduced levels of both FSHR and LHR on granulosa cells, compared with healthy follicles whatever the follicular diameter, whereas levels of LHR on theca cells were lower only for atretic follicles larger than 1,600 microm in diameter. In healthy follicles, levels of FSHR and LHR in all follicular compartments increased significantly with diameter. Although generally comparable to that observed in other mammals, the expression pattern of gonadotropin receptors in the cat ovary is characterized by an early acquisition of LHR on granulosa cells of growing follicles and islets of LH binding sites in the ovarian interstitial tissue.     

Testosterone-Dependent Interaction between Androgen Receptor and Aryl Hydrocarbon Receptor Induces Liver Receptor Homolog 1 Expression in Rat Granulosa Cells

Androgens play a major role in the regulation of normal ovarian function; however, they are also involved in the development of ovarian pathologies. These contrasting effects may involve a differential response of granulosa cells to the androgens testosterone (T) and dihydrotestosterone (DHT). To determine the molecular pathways that mediate the distinct effects of T and DHT, we studied the expression of the liver receptor homolog 1 (LRH-1) gene, which is differentially regulated by these steroids. We found that although both T and DHT stimulate androgen receptor (AR) binding to the LRH-1 promoter, DHT prevents T-mediated stimulation of LRH-1 expression. T stimulated the expression of aryl hydrocarbon receptor (AHR) and its interaction with the AR. T also promoted the recruitment of the AR/AHR complex to the LRH-1 promoter. These effects were not mimicked by DHT. We also observed that the activation of extracellular regulated kinases by T is required for AR and AHR interaction. In summary, T, but not DHT, stimulates AHR expression and the interaction between AHR and AR, leading to the stimulation of LRH-1 expression. These findings could explain the distinct response of granulosa cells to T and DHT and provide a molecular mechanism by which DHT negatively affects ovarian function.