Localization of an activin/activin receptor system in the porcine ovary.

The aim of this study was to locate a possible activin/activin receptor system within porcine ovaries containing functional corpora lutea. In situ hybridization was used to assess the gene expression of beta(A)- and beta(B)-activin subunits, and immunohistochemical studies were done to detect activin-A protein and activin receptor type II. mRNA expression of the beta(A)- and beta(B)-activin subunits was found in the granulosa from the unilaminar follicle stage onward, in the developing thecal layer of multilaminar and small antral follicles, in the theca interna of mid-sized antral follicles, in corpora lutea, and in the ovarian surface epithelium. Immunoreactive activin A protein could be detected at the same ovarian sites, but in thecal tissue of small antral follicles only. This protein was also demonstrated at the peripheral zone of oocytes from multilaminar and antral follicles. A positive immunoreaction for activin receptor was found in granulosa cells from multilaminar and older follicles and in oocytes from the earliest stages of follicular development onward. In late multilaminar follicles and in antral follicles, the oolemma was stained. Except for small antral follicles, a positive activin receptor immunoreaction was absent in the follicular theca. Activin receptor immunoreaction was furthermore present in corpora lutea and in the ovarian surface epithelium. It is concluded that, within porcine ovaries containing functional corpora lutea, an activin/activin receptor system is present in all intact follicles, the corpora lutea and the surface epithelium. Within follicles, granulosa and theca cells are the main sites of activin synthesis, while oocytes and granulosa cells are the main activin binding sites.     

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.     

Localization of androgen receptor and cytochrome P450 aromatase in the follicle and corpus luteum of the porcine ovary

The following study was undertaken to localize androgen receptors (AR) and aromatase cytochrome P450 (P450arom) in porcine ovarian tissue because ovarian androgens may act locally to modulate follicular and luteal function in various species. Androgen receptor was detected immunohistochemically in granulosa and theca cells of preantral as well as in growing antral follicles. The most intensive staining was observed in the antral granulosa layer. Luteinizing granulosa cells of preovulatory follicles, and luteal cells from the early and midluteal phases stained weakly for the androgen receptor. Fully regressed corpora lutea in the early follicular phase of the next cycle did not stain for androgen receptor. In contrast, granulosa cells were very weakly stained for aromatase in early stages of follicular development. The P450arom was maximally expressed with the same intensity in mural and antral layers in large ovulatory follicles. Corpora lutea from the early luteal phase showed positive staining, whereas those from midluteal phase did not stain for aromatase, some cells of regressed corpora lutea unexpectedly exhibited aromatase staining.     

Transforming growth factor-beta(1) regulates differentiation of porcine granulosa cells in vitro

Transforming growth factor-beta (TGF-beta) is a potential regulator of ovarian function and follicular development. It is speculated that TGF-beta mediates the events in the follicle which culminate in ovulation of the oocyte. The complex processes which ultimately leads to this natural phenomenon must involve interactions between the 2 major follicular cell types, theca and granulosa cells, and the oocyte. Furthermore, a complex local regulatory system must exist to determine which follicles should undergo development and, eventually, which of those should ovulate or undergo atresia. To begin to understand this perplexing process, we must first understand the variables which control the function of each individual cell type. This study investigated the effect of TGF-beta(1) on FSH-induced porcine granulosa cell differentiation in vitro. Transforming growth factor-beta(1) was shown to inhibit progesterone production at high concentrations (0.1 and 10.0 ng/ml) after 12-, 24- and 48-hour treatment. However, TGF-beta(1) produced a biphasic effect on FSH-induced progesterone production during the 12-hour interval between the 36- and 48- hour treatment periods; TGF-beta(1) stimulated progesterone production at a low concentration (0.001 ng/ml) and inhibited production at high concentrations (0.1 and 10.0 ng/ml). The results obtained from the biphasic effect were not observed during any of the other incubation periods or intervals investigated. These results show that TGF-beta(1) has opposing effects on the differentiation of porcine granulosa cells as compared with those on rat granulosa cells. Moreover, TGF-beta(1) can produce opposing effects within the porcine granulosa cell itself which are specific to the concentration and treatment period used. The results of this study seem to suggest that TGF-beta(1) is species- and time-specific in its regulatory actions on FSH-induced porcine granulosa cell differentiation.     

Changes in the expression of cytochrome P450c17 associated with ovarian cystic follicles. An immunocytochemical and enzymatic analysis of porcine ovaries.

The steroidogenic activity of normal preovulatory and cystic follicles, and corpora lutea of porcine ovaries was investigated by immunocytochemical and radioenzymatic techniques. Using a specific antibody to porcine cytochrome P450c17, immunocytochemical staining was specifically localized in the theca interna layer of normal follicles and undetectable in the granulosa layer. The theca interna layers of non-luteinized cystic follicles were immunoreactive while those of luteinized follicles were not. Corpora lutea cells were essentially negative. The 3 beta-hydroxysteroid dehydrogenase/delta 5-delta 4 isomerase activity was similar in luteinized cystic follicular and corpora lutea tissues, which had 8 times higher activity than found in normal preovulatory follicles. The formation of either corpora lutea or luteinized cysts led to a profound decline (12- to 15-fold) in 17 alpha-hydroxylase and 17,20 lyase activities compared to normal preovulatory follicles. In agreement with these enzyme findings, radioimmunoassays revealed very high levels of progesterone with nearly undetectable levels of androgens in the luteinized cysts. These studies demonstrate the functional similarities between cells of luteinized cysts and those of normal corpora lutea and suggest a pathology associated suppression of P450c17 expression in porcine cystic follicles.     

Paracrine effects of oocyte secreted factors and stem cell factor on porcine granulosa and theca cells <Emphasis Type="Italic">in vitro</Emphasis>

Oocyte control of granulosa and theca cell function may be mediated by several growth factors via a local feedback loop(s) between these cell types. This study examined both the role of oocyte-secreted factors on granulosa and thecal cells, cultured independently and in co-culture, and the effect of stem cell factor (SCF); a granulosa cell derived peptide that appears to have multiple roles in follicle development. Granulosa and theca cells were isolated from 2–6 mm healthy follicles of mature porcine ovaries and cultured under serum-free conditions, supplemented with: 100 ng/ml LR3 IGF-1, 10 ng/ml insulin, 100 ng/ml testosterone, 0–10 ng/ml SCF, 1 ng/ml FSH (granulosa), 0.01 ng/ml LH (theca) or 1 ng/ml FSH and 0.01 ng/ml LH (co-culture) and with/without oocyte conditioned medium (OCM) or 5 oocytes. Cells were cultured in 96 well plates for 144 h, after which viable cell numbers were determined. Medium was replaced every 48 h and spent medium analysed for steroids.     

Possible involvement of transforming growth factor-beta 1 and transforming growth factor-beta receptor type II during luteinization in the marmoset ovary

The expression of transforming growth factor-beta 1 (TGF-beta 1), and transforming growth factor-beta receptor type II (T beta R-II), were evaluated in periovulatory marmoset ovaries. Histochemical methods were used, in particular double-labelling techniques, in order to correlate growth factor/receptor expression with proliferation (Ki 67), apoptosis (TUNEL method) and luteinization (3 beta-hydroxysteroid dehydrogenase (3 beta-HSD)). The latter was used as a luteinization marker. Periovulatory ovaries are especially suited for studying all aspects since they typically consist of small non-luteinized follicles, large luteinizing follicles and corpora lutea accessoria (Clas), which have developed from large luteinizing follicles. TGF-beta 1 and T beta R-II expression was found in luteinizing theca cells of large periovulatory follicles and in all luteal cells of Clas. Non-luteinized theca cells, including those of small follicles were always devoid of any immunostaining. Granulosa cells of small follicles were immunopositive for T beta R-II. Large follicles with granulosa cell immunoreactivity of both antibodies coexisted with non-reactive follicles of comparable size. The highest activity of the luteal marker enzyme 3 beta-HSD was co-localized in the same cells that expressed TGF-beta 1 and T beta R-II. The double-labelling experiments revealed that TGF-beta 1 and T beta R-II expression is not correlated with proliferation or apoptosis of follicular cells. Our results indicate that TGF-beta 1 and T beta R-II participate in differentiation processes, i.e. luteinization, rather than proliferation. In particular, the dynamics of T beta R-II expression appear highly related to the process of luteinization.     

Coexpression of adrenomedullin and its receptors in the reproductive system of the rat: effects on steroid secretion in rat ovary

The present study demonstrates the expression of adrenomedullin (ADM) in the reproductive system of the female rat and its effect on the secretion of estradiol and progesterone. Ovarian ADM and Adm mRNA levels were decreased at estrus, whereas oviductal Adm mRNA levels were low at proestrus. Both tissues were shown to coexpress mRNAs encoding the calcitonin receptor-like receptor and receptor activity-modifying protein 1 (Ramp1), Ramp2, and Ramp3. Gel filtration chromatography of ovarian extracts showed two peaks, with the predominant one eluting at the position of authentic rat ADM (1-50) at estrus and at the position of ADM precursor at diestrus. Positive ADM immunostaining was localized in the granulosa and theca cells of the follicle and corpora lutea of the ovary. Adrenomedullin inhibited FSH-induced estradiol secretion in 2-day-old follicles and also suppressed eCG-stimulated progesterone release in corpora lutea. The inhibitory effect of ADM on the follicles and the corpora lutea was abolished by calcitonin gene-related peptide (8-37) and ADM (22-52), respectively. The presence of ADM and the gene expression of ADM and its receptor components in the female reproductive system suggest a paracrine effect of ADM on ovarian steroidogenesis.     

Expression of transforming growth factor-beta3 (TGF-beta3) in the porcine ovary during the oestrus cycle

Transforming growth factor-beta (TGF-beta) proteins are growth factors that have been shown to be involved in regulation of ovarian follicular development. Ovarian expression, activity and functional significance of TGF-beta1 and TGF-beta2 isoforms were extensively studied in most species. However, little is known about the biological role of TGF-beta3 previously shown to be expressed independently of the other two isoforms. Therefore, expression of TGF-beta3 mRNA and protein was evaluated by RT-PCR and immunohistochemistry, respectively, in porcine ovaries collected during different phases of the oestrus cycle. Results of RT-PCR analysis showed that TGF-beta3 mRNA is expressed throughout the oestrus cycle. The level of TGF-beta3 mRNA expression was found to be higher at metoestrus and dioestrus. Weak TGF-beta3 immunoreactivity was present in follicular epithelial cells and oocytes of preantral follicles in all stages examined. TGF-beta3 protein expression was exclusively present in theca interna cell layer of antral follicles, and was particularly prominent in large antral follicles. Immediately after ovulation, almost all theca cells outside of the granulosa cell layer were intensively stained with anti-TGF-beta3. Immunostaining of TGF-beta3 in theca lutein cells rapidly decreased during corpus luteum development. It is suggested that TGF-beta3 may play an important role in modulating theca cell function of pre- and postovulatory follicles of the pig.     

Histochemical changes in acid and alkaline phosphatase activities in the growing follicles and corpora lutea of the rat ovary

Changes in acid and alkaline phosphatase activities are studied histochemically in different components of the growing follicles and corpora lutea of different generations. Theca cells of the growing follicles showed strong acid phosphatase activity as compared to that observed in the oocyte and granulosa cells. Alkaline phosphatase activity is localized only in the theca interna cells of growing follicles. However, after ovulation with the formation of corpora lutea, the granulosa lutein cells also showed this activity. Changes in the histochemical distribution of the acid and alkaline phosphatases in the follicles and corpora lutea are discussed in relation to folliculogenesis and corpus luteum and regression.     

Localization of some steroidogenic enzymes in the ovary of the rabbit

The distribution of delta 5-3 beta-HSD, peroxidase and cytochrome oxidase in immature, sexually mature and pregnant rabbit ovary has been studied histochemically. Corpora lutea are found only in pregnant rabbits. delta 5-3 beta-HSD is present in the theca interna of mature follicles, corpora lutea and interstitial gland cells but is absent in the granulosa cells of both developing and mature follicles. The granulosa cells of mature and developing follicles, hypertrophied theca interna and the luteal cells all show intense cytochrome oxidase activity. Peroxidase is present in the corpora lutea only. It is suggested that delta 5-3 beta-HSD in the theca interna and interstitial gland cells is the enzyme responsible for steroid synthesis in the ovaries of immature as well as sexually mature rabbits, while peroxidase and delta 5-3 beta-HSD present in the corpora lutea together regulate luteal steroidogenesis during pregnancy. The intense cytochrome oxidase activity together with peroxidase and delta 5-3 beta-HSD confirms the observations that this tissue is a site of intense oxidative activity.     

Different action of ovine GH on porcine theca and granulosa cells proliferation and insulin-like growth factors I- and II-stimulated estradiol production

Growth hormone (GH) and insulin-like growth factors (IGFs) are recognized as regulators of ovarian function. This study was designed to compare the effect of GH and IGFs added alone or together on porcine theca interna and granulosa cells proliferation and steroidogenesis. Moreover, the effect of GH on IGF-I secretion was examined. Cells were isolated from medium size follicles and cultured in vitro for 48 h in serum free medium. Estradiol and IGF-I medium concentrations were determined by radioimmunoassays. Proliferation was evaluated by alamar blue assay and by radiolabelled thymidine incorporation. GH increased IGF secretion by granulosa cells while decreased its secretion by theca cells. Proliferation of both cell types was stimulated by IGF-I and IGF-II (30 ng/ml) and modestly inhibited by GH (100 ng/ml). Insulin-like growth factor II increased, in a statistically significant manner, estradiol secretion by both cell types, while IGF-I stimulated estradiol secretion to a greater extent by granulosa then by theca cells. The synergistic action of GH and IGFs on estradiol secretion was stimulatory in theca cells and inhibitory in granulosa cells. These data demonstrate that despite its direct action on estradiol secretion by granulosa and theca cells, GH also modulated estradiol secretion induced by IGFs. Differences in the estradiol production in response to GH alone and the effect of the synergistic action of GH and IGFs suggest that different cellular mechanisms for these hormones are triggered in each cell type.     

Further immunocytochemical study on the localization of aromatase in the ovary of rats and mice

The precise localization of estrogen biosynthesis in the ovary of rats and mice were immunocytochemically studied using new antisera against aromatase cytochrome P-450. The positive reaction for aromatase was detected mainly on the granulosa cells of large, apparently preovulatory follicles. In addition, the cells of some corpora lutea showed very weak positive reaction but most corpora lutea were negative to the staining. Those cells such as the granulosa cells of smaller follicles, the theca interna cells, the interstitial gland cells, oocytes, peritoneal epithelial cells were entirely negative. These results indicate that in the ovary of rats and mice, the granulosa cells of preovulatory follicles are the main site for synthesis of estrogen from androgen which is provided by the theca interna cell and the interstitial gland cell.     

Evidence for a granulosa cell site of dihydrostestosterone metabolism in the adult rat ovary

The ovarian enzyme 3 alpha-hydroxysteroid dehydrogenase (3 alpha-HSD) converts dihydrotestosterone (DHT) to 5 alpha-androstan-3 alpha,17 beta-diol (3 alpha-diol), a reduced androgen that does not bind to the granulosa cell androgen receptor. To determine the relative contribution of the granulosa cells to total ovarian 3 alpha-HSD activity, adult rats treated with either medroxyprogesterone acetate (MPA) or vehicle underwent ovarian microdissection. 3 alpha-Hydroxysteroid dehydrogenase is primarily located in excised follicles and corpora lutea, and is inhibited in the follicles but not corpora lutea by MPA (P less than 0.05). Elimination of healthy granulosa cells while maintaining healthy theca cells by irradiation of the exteriorized ovaries with 6000 rads resulted in a marked reduction in 3 alpha-HSD to 19% of control levels on a per-organ basis (P less than 0.01). The granulosa cell is the major ovarian site for 3 alpha-hydroxylation of ring A-reduced C19 steroids in the adult rat.     

Effects of insulin-like growth factor-II on proliferation and differentiation of ovarian granulosa cells.

The effects of insulin-like growth factor-II (IGF-II) on the proliferation and differentiation of ovarian granulosa cells were studied in cultured human and porcine granulosa cells. IGF-II significantly increased basal progesterone secretion in granulosa cells at concentrations of 1-100 ng/ml. A stimulatory effect was also observed in gonadotropin-stimulated porcine granulosa cells treated with IGF-II. The secretion of estradiol by basal and gonadotropin-stimulated porcine granulosa cells was also significantly increased by adding IGF-II. IGF-II led to dose-dependent increases in [3H]thymidine incorporation into DNA and in the number of granulosa cells. To further characterize the cellular mechanisms underlying the stimulatory effects of IGF-II on the proliferation and differentiation of granulosa cells, we investigated the intermediary roles of cyclic AMP and intracellular Ca2+ concentration ([Ca2+]i). Treatment with 100 ng/ml IGF-II produced a significant increase in the basal accumulation of cyclic AMP in porcine granulosa cells. However, no change of [Ca2+]i by IGF-II was noted. IGF-II produced effects in accumulation that were similar to those of IGF-I. Our findings suggest that IGF-II may be a general stimulator in the proliferation and differentiation of granulosa cells, and that cyclic AMP may be a second messenger for the effects of IGF-II in ovarian granulosa cells.     

Histochemical localization of 3 beta-hydroxysteroid dehydrogenase in marmoset ovaries during pro- and diestrus, with special reference to substrate specificity

We applied qualitative cytochemical procedures to investigate and compare the distribution of 3 beta-hydroxysteroid dehydrogenases (HSDH) in pro- and diestrus ovaries of sexually mature marmosets (Callithrix jacchus) using dehydroepiandrosterone or etiocholane-3 beta-ol-17-one as the substrate. During proestrus dehydroepiandrosterone dehydrogenase (3 beta-5 alpha-HSDH) activity was found in the theca of tertiary follicles and in atretic granulosa cells. In granulosa cells at advanced stages of degeneration, HSDH activity was distinctly higher than in thecal cells. The activity of etiocholane-3 beta-ol-17-one dehydrogenase (3 beta-5 beta-HSDH) exhibited a gradient in preovulatory follicles, ranging from high levels in granulosa cells adjacent to the basement membrane to low levels in cells bordering on the antrum and in cumulus oophorus cells. During diestrus 3 beta-5 alpha-HSDH activity was only detected in the corpora lutea; the level of 3 beta-5 beta-HSDH activity was unchanged in the theca of tertiary follicles and was high in the cells of the corpora lutea. HSDH activity was no longer detectable in atretic granulosa cells using either dehydroepiandrosterone or etiocholane-3 beta-ol-17-one as the substrate. Comparison of the distribution of HSDH during proestrus and diestrus revealed that steroidogenesis in marmoset ovaries occurs in follicular elements during diestrus and almost exclusively in the corpora lutea during diestrus. From this phase-dependent localization, it is possible to determine the stage of the estrous cycle. Furthermore, our findings indicate that the localization of HSDH is dependent on the conformational structure of the substrate used.