Progesterone, androstenedione and oestradiol content of theca and granulosa tissues of the four largest ovarian follicles during the ovulatory cycle of the hen (Gallus domesticus)

The progesterone, androstenedione and oestradiol contents of the theca and granulosa tissues of the four largest follicles in the ovarian hierarchy of the hen were determined. The granulosa tissue contained significantly (P less than 0.05) more progesterone and less androstenedione and oestradiol than the theca tissue. The content of progesterone was greatest in the granulosa tissue of the first three follicles in the hierarchy and in each of these follicles there was a peak in progesterone content of the granulosa 4 h before ovulation. The theca of the second, third and fourth follicles and the granulosa of the third and fourth follicles contained significantly (P less than 0.05) more androstenedione than either tissue in the largest follicle. The content of androstenedione was maximal approximately 8 h before ovulation in both tissues of the second and third follicles. The content of oestradiol in the granulosa did not vary as follicles changed position within the hierarchy or during the ovulatory cycle. The oestradiol content of the theca tissue remained constant during the third and fourth positions in the hierarchy and declined throughout the second and first positions until a nadir was observed approximately 20 h before ovulation. It was concluded that the synthesis of androstenedione and oestradiol ceases in both follicular tissues after the follicle is exposed to the penultimate preovulatory surge of LH and that progesterone production is stimulated in the granulosa of the three largest follicles at the time of the preovulatory release of LH.     

Gonadotropin- and cytokine-regulated expression of the chemokine interleukin 8 in the human preovulatory follicle of the menstrual cycle

Interleukin 8 (IL-8) is a chemotactic cytokine involved in the recruitment and activation of neutrophils as well as in cell proliferation and angiogenesis. Because these events are essential components of folliculogenesis, ovulation, and subsequent repair of the ruptured follicle, the presence and regulation of IL-8 in the human follicle of the menstrual cycle was investigated. The concentrations of IL-8 were higher in follicular fluids from dominant follicles of late follicular/ovulatory phase compared with those of midfollicular phase. IL-8 was detected in the media from cultured granulosa and theca cells, with 10-fold higher levels in the theca cell cultures. Exposure to FSH and LH increased the IL-8 secretion from granulosa cells, but no effect was seen in theca cell cultures. Estradiol and progesterone did not affect IL-8 secretion from any cell type. The cytokines IL-1alpha and IL-1beta, but not tumor necrosis factor alpha, enhanced IL-8 secretion from both cell types. IL-8 levels in cultures of granulosa-lutein cells from hyperstimulated in vitro fertilization cycles were not affected by either gonadotropins or steroids. These data provide evidence that ovarian IL-8 is gonadotropin and cytokine induced and may be involved in the hormonally regulated stages of follicular development and ovulation.     

Immunolocalization of ghrelin and its functional receptor,the type 1a growth hormone secretagogue receptor,in the cyclic human ovary

Ghrelin is a novel 28-amino acid peptide identified as the endogenous ligand for the GH secretagogue receptor (GHS-R). Besides its hallmark central neuroendocrine effects in the control of GH secretion and food intake, an unexpected reproductive facet of ghrelin has recently emerged because expression of this molecule and its cognate receptor has been demonstrated in rat testis. However, whether this signaling system is present in human gonads remains to be evaluated. In this study, we have assessed the presence and cellular location of ghrelin and its functional receptor, namely the type 1a GHS-R, in the cyclic human ovary by means of immunohistochemistry using specific polyclonal antibodies. Strong ghrelin immunostaining was demonstrated in ovarian hilus interstitial cells. In contrast, ghrelin signal was not detected in ovarian follicles at any developmental stage, nor was it present in newly formed corpora lutea (CL) at very early development. However, specific ghrelin immunoreactivity was clearly observed in young and mature CL, whereas expression of the peptide disappeared in regressing luteal tissue. Concerning the cognate receptor, ovarian expression of GHS-R1a protein showed a wider pattern of tissue distribution, with detectable specific signal in oocytes as well as somatic follicular cells; luteal cells from young, mature, old, and regressing CL; and interstitial hilus cells. Of particular note, follicular GHS-R1a peptide expression paralleled follicle development with stronger immunostaining in granulosa and theca layers of healthy antral follicles. In conclusion, our results are the first to demonstrate that ghrelin and its functional type 1a receptor are expressed in the cyclic human ovary with distinct patterns of cellular location. The presence of both components (ligand and receptor) of the ghrelin signaling system within the human ovary opens up the possibility of a potential regulatory role of this novel molecule in ovarian function under physiological and pathophysiological conditions.     

Follicular plasminogen activator: involvement in ovulation

Production of plasminogen activator (PA) by granulosa cells (GC) and its stimulation by gonadotropins led to the suggestion that PA is involved in ovulation. However, whereas only LH may be regarded as the ovulation-inducing hormone in the rat, FSH was found to be much more potent than LH in enhancing PA production by GC. Assuming that the entire follicular wall, rather than isolated GC, is involved in follicular rupture, we have examined activity of PA in intact follicles. LH (NIH-LH-S23) was 5-fold more potent than FSH (NIH-FSH-S14), and purified ovine LH and FSH were equally potent in enhancing follicular PA activity. Furthermore, injection into the ovarian bursa of proestrous rats of epsilon-amino-caproic acid and benzamidine (0.05-0.25 mmol), inhibitors of serine proteases, including PA and plasmin, resulted in a dose-dependent inhibition of ovulation without causing changes discernible by histological examinations of the ovaries. Whereas steroids did not change basal follicular PA production in culture, addition of estradiol-17 beta [(E2) 1 microgram/ml] but not progesterone or testosterone, further enhanced LH-stimulated PA. Aminoglutethimide phosphate (10(-3) M) and 17 beta-formamidoandrost-4-en-3-one inhibited LH-induced increase in follicular PA and this inhibition was reversed by addition of E2. Intrabursal injection of indomethacin, an inhibitor of cyclooxygenase, and of nordihydroguaiaretic acid, an inhibitor of lipoxygenase pathway of arachidonic acid metabolism at doses which effectively blocked ovulation (0.3 mg/bursa) had no effect on PA content of the follicles. Likewise, indomethacin (10 microM) and nordihydroguaiaretic acid (100 microM) did not affect LH-stimulated PA in vitro. In conclusion, LH, the physiological trigger of ovulation is, at least, as potent as FSH in stimulating follicular PA activity. The role of serine proteases, most probably of PA and plasmin, in ovulation is further corroborated by a pharmacological approach. LH stimulation of follicular PA appears to be enhanced by E2 but is not mediated by arachidonic acid metabolites.     

Localization of progesterone receptors in pre- and postovulatory follicles of the domestic hen

Progesterone may act locally to modulate follicular maturation and ovulation in the domestic hen. The distribution of progesterone receptors (PR) in the pre- and postovulatory follicles was determined in hens by immunocytochemistry and Western blot analysis. Monoclonal antibodies to chicken PR, PR6, and PR 13, were used. PR were localized in nuclei of theca externa fibroblasts and germinal epithelial cells in stigma and nonstigma regions of the third largest preovulatory follicle (F3). In the largest preovulatory follicle (F1), PR were present in theca externa fibroblasts, germinal epithelial cells, and also in granulosa cells and some of the theca interna fibroblasts in the stigma and nonstigma region. Twenty-four hours after ovulation, PR in the fibroblasts of the theca externa of the postovulatory follicle (POF) were remarkably reduced, but the amount of PR in the granulosa cells was similar to that observed in the F1. A high density of PR was also found in the fibroblasts, arterial wall, and smooth muscle fibers in the loose connective tissue of pre- and postovulatory follicles. Western blot analysis indicated that PR in the granulosa and theca tissue were identical in molecular weight to PR in the shell gland. Western blot analysis also confirmed the changes in the amounts of PR in the pre- and postovulatory follicles as determined by immunocytochemistry. The relative amounts of PR in the granulosa cells as determined by Western blot analysis was F2 less than F1 = POF, and in theca tissue was F2 = F1 greater than POF. The presence of PR in specific ovarian tissues suggests that these tissues are target tissues for progesterone and that progesterone may have a role in regulating follicular maturation and ovulation through receptor-mediated pathways.     

Implications of the serine protease HtrA1 in amyloid precursor protein processing

The defining features of the widely conserved HtrA (high temperature requirement) family of serine proteases are the combination of a catalytic protease domain with one or more C-terminal PDZ domains and reversible zymogen activation. Even though HtrAs have previously been implicated in protein quality control and various diseases, including cancer, arthritis, and neuromuscular disorder, the biology of the human family members is not well understood. Our data suggest that HtrA1 is directly involved in the beta-amyloid pathway as it degrades various fragments of amyloid precursor protein while an HtrA1 inhibitor causes accumulation of Abeta in astrocyte cell culture supernatants. Furthermore, HtrA1 colocalizes with beta-amyloid deposits in human brain samples. Potential implications in Alzheimer's disease are discussed.     

Oxytocin secretion by bovine granulosa cells: effects of stage of follicular development, gonadotropins, and coculture with theca interna

Oxytocin (OT) has been detected in ruminant preovulatory follicles. Bovine granulosa cells express the oxytocin/neurophysin I (OT/NP-I) gene and secrete OT in vitro. The objective of this study was to determine the developmental pattern of OT secretion by bovine follicle cells as they differentiate during the follicular phase and the preovulatory follicle approaches ovulation. Holstein heifers were injected with prostaglandin F2 alpha in midluteal phase to induce luteal regression and initiate a follicular phase. The ovary bearing the preovulatory follicle was obtained by ovariectomy early in the follicular phase, in midfollicular phase, or late in the follicular phase, after the LH/FSH surge (n = 4 heifers per group). Theca interna and granulosa cells were isolated and cultured for 5 days, individually or in coculture, in defined or serum-containing medium and with or without LH (300 ng/ml) or FSH (300 ng/ml). Media were collected and replaced completely every 24 h, and OT secreted into the media was measured by RIA. Granulosa cells isolated at all three time points during the follicular phase secreted measurable amounts of OT. However, total OT secretion by granulosa cells isolated after the LH/FSH surge was 18.9-fold (defined medium) to 64.8-fold (serum-containing medium) higher than OT secretion by granulosa cells isolated early in the follicular phase, and 14.6-fold (defined medium) to 170-fold (serum-containing medium) higher than OT secretion by granulosa cells isolated in midfollicular phase. Granulosa cells isolated before the LH/FSH surge responded to the addition of LH or FSH to the culture medium with an increase in OT secretion. Cocultures of granulosa cells and theca interna isolated before the LH surge secreted more OT than cultures of granulosa cells alone. When cells were isolated early in the follicular phase the effect of coculture was more than additive, but the effect of coculture was only additive when follicles were obtained in midfollicular phase. OT secretion by granulosa cells isolated after the LH/FSH surge was not affected by gonadotropins or by coculture with theca interna. In contrast to results for granulosa cells, theca interna secreted only small and variable amounts of OT, and responses to LH were inconsistent. These findings suggest that OT detected in cultures of theca interna may be produced by small and variable numbers of granulosa cells contaminating the theca interna preparation.(ABSTRACT TRUNCATED AT 400 WORDS)     

Spatio-temporal analysis of vascular endothelial growth factor expression and blood vessel remodelling in pig ovarian follicles during the periovulatory period

Vascular endothelial growth factor (VEGF) expression pattern and blood vessel remodelling were evaluated during the transition from the preovulatory follicle to the corpus luteum (CL). To this end, prepubertal gilts were treated with equine chorionic gonadotrophin (eCG) to collect preovulatory follicles (60 h after eCG) and with human chorionic gonadotrophin (hCG) to obtain periovulatory follicles 18 h and 36 h later. The VEGF mRNA content was analysed by in situ hybridization, while protein localization in follicular fluid (FF) and in granulosa and theca compartments was evaluated by ELISA, immunohistochemistry or western blot. Blood vessel architecture and vascular area (VA) were investigated using immunohistochemistry for von Willenbrand Factor, a specific endothelial marker. Vascular remodelling was finally tested using Ki-67 immunocytochemistry as a proliferation marker, or alpha-smooth muscle actin (alpha-SMA) as a specific mural cell marker. eCG-treated follicles showed high VEGF levels and two concentric blood vessel networks composed of proliferating endothelial cells without any association with mural components. hCG injection inhibited VEGF synthesis in the granulosa compartment and, as a consequence, the protein fell within the FF. In parallel, endothelial cell proliferation stopped and the VA decreased. Close to ovulation, VEGF production restarted in both follicular compartments and VEGF mRNA content significantly increased in the theca layer. Changes in follicular VEGF secretion were observed; the protein disappeared from FF and was observed in the extracellular matrix. An active angiogenesis characterized the follicle; endothelial cell proliferation was associated with a recruitment of alpha-SMA-positive mural cells. The data presented in this work showed that, in the phases preceding ovulation, a complete vascular remodelling occurs, characterized by both an evident neovascularization and the appearance of blood vessels presenting smooth musculature which could be involved in CL formation after ovulation.     

Oxytocin stimulates progesterone production by bovine granulosa cells isolated before, but not after, the luteinizing hormone surge

Oxytocin and its mRNA have been detected in bovine granulosa cells, but the function of follicular oxytocin is not well understood. We have shown previously that oxytocin exerts a specific, dose-dependent, stimulatory effect on progesterone secretion by granulosa, but not theca cells isolated from bovine preovulatory follicles obtained 48 h after the initiation of luteolysis. The objective of the present study was to characterize the development of granulosa cell responsiveness to oxytocin during the follicular phase. Granulosa cells and theca interna were isolated form preovulatory follicles early in the follicular phase (24 h after the initiation of luteolysis) or after the luteinizing hormone (LH) surge and cultured in defined medium for 5 days with or without oxytocin and in the presence or absence of gonadotropins. Granulosa, but not theca cells obtained before the LH surge increased progesterone production 3.3-fold in response to oxytocin. However, late in the follicular phase, after the LH surge, granulosa cells did not respond to oxytocin (or to follicle-stimulating hormone (FSH) or LH). These findings suggest that the LH surge (1) stimulates granulosa cells to maximal progesterone secretion, so that they cannot be further stimulated, (2) abolishes the responsiveness of granulosa cells to oxytocin, or (3) stimulates granulosa cells to increase oxytocin production, so that exogenous oxytocin has no additional effect.     

Gap junctional connexin 37 is expressed in sheep ovaries

The objective of current study was to evaluate the expression of Cx37 in ovarian follicles and in corpora lutea (CL) during the estrous cycle in sheep. Ovine Cx37 was cloned and characterized to design speciesspecific probe and primers. In Exp. 1, ovaries were collected on d 13, 14, 15, and 16 of the estrous cycle, or from FSH-induced ewes at 0, 2, 4, 8, 12, 24, and 48 h after hCG treatment on d 15 of the estrous cycle. In Exps. 2 and 3, CL were collected on d 5, 10, and 15 of the estrous cycle, or at 0, 4, 8, 12, and 24 h after prostaglandin F_2α (PGF_2α)-induced luteal regression on d 10 of the estrous cycle, respectively. Ovarian tissues (e.g., granulosa cells, theca cells, ovarian follicles, and/or CL) were used for Cx37 immunostaining followed by image analysis or for determination of Cx37 mRNA expression by real-time RT-PCR. We demonstrated that (1) Cx37 protein was expressed in granulosa and cumulus oocyte complex compartments, ovarian blood vessels, and on the luteal cell borders, (2) expression of Cx37 mRNA was greater in granulosa than in theca cells of prevulatory follicles, (3) Cx37 mRNA expression in granulosa but not theca cells was affected by hCG treatment, (4) Cx37 protein and mRNA expression were dependent on the stage of luteal development, and (5) Cx37 expression changed during PGF_2α-induced luteal regression. Thus, Cx37 may play a role in follicular development and ovulation as well as in luteal tissue growth, differentiation, and regression.     

Changes in oxytocin receptor in bovine preovulatory follicles between the gonadotropin surge and ovulation

In cattle, production of oxytocin by granulosa cells of preovulatory follicles is induced by the LH/FSH surge and intrafollicular oxytocin increases dramatically toward the end of the interval between the surge and ovulation. We reported previously that oxytocin modulates steroid production by both theca and granulosa cells obtained from bovine preovulatory follicles, implying actions of oxytocin on both cell types of preovulatory follicles. The objective of the present study was to examine the temporal expression of oxytocin receptor mRNA and protein in both theca and granulosa cells of bovine periovulatory follicles. To induce luteal regression and initiate a follicular phase, heifers were injected with prostaglandin F₂ on Day 6 or 7 of the estrous cycle and 36 h later, a GnRH analogue was administered to induce the LH/FSH surge. The periovulatory follicle was isolated at 0, 3.5, 12, or 24 h after GnRH injection. A significant increase in the levels of mRNA for oxytocin was detected in granulosa, but not theca, cells of periovulatory follicles at 12 and 24 h after GnRH injection, relative to time 0. In contrast, the levels of oxytocin receptor mRNA and specific binding sites for oxytocin in granulosa cells had decreased significantly at 12 and 24 h post-GnRH. In theca cells, the levels of oxytocin receptor mRNA were significantly lower at 12 and 24 h compared with values at 3.5 h, but specific binding of oxytocin to thecal cell membranes was not different at any time point. Immunopositive staining for oxytocin receptor was localized to both the theca and granulosa cell layer of periovulatory follicles at all four times of follicle isolation. These results suggest the direct action of oxytocin on both theca and granulosa cells of bovine periovulatory follicles through binding to its receptor, supporting the hypothesis that follicular oxytocin plays an important role(s) in the regulation of the final stage of follicular development. Down-regulation of oxytocin receptor mRNA and oxytocin binding may serve to temporally limit the actions of oxytocin on the preovulatory follicle.     

Molecular cloning and characterization of prostase, an androgen-regulated serine protease with prostate-restricted expression

The identification of genes with selective expression in specific organs or cell types provides an entry point for understanding biological processes that occur uniquely within a particular tissue. Using a subtraction approach designed to identify genes preferentially expressed in specific tissues, we have identified prostase, a human serine protease with prostate-restricted expression. The prostase cDNA encodes a putative 254-aa polypeptide with a conserved serine protease catalytic triad and an amino-terminal pre-propeptide sequence, indicating a potential secretory function. The genomic sequence comprises five exons and four introns and contains multiple copies of a chromosome 19q-specific minisatellite repeat. Northern analysis indicates that prostase mRNA is expressed in hormonally responsive normal and neoplastic prostate epithelial tissues, but not in prostate stromal constituents. Prostase shares 35% amino acid identity with prostate-specific antigen (PSA) and 78% identity with the porcine enamel matrix serine proteinase 1, an enzyme involved in enamel matrix degradation and with a putative role in the disruption of intercellular junctions. Radiation-hybrid-panel mapping localized prostase to chromosome 19q13, a region containing several other serine proteases, including protease M, pancreatic/renal kallikrein hK1, and the prostate-specific kallikreins hK2 and hK3 (PSA). The sequence homology between prostase and other well-characterized serine proteases suggests several potential functional roles for the prostase protein that include the degradation of extracellular matrix and the activation of PSA and other proteases.     

Steroidogenesis by equine preovulatory follicles: relative roles of theca interna and granulosa cells

Estrous cycles in mares have several unique characteristics, including the presence of a long period of estrus and the absence of a typical LH surge. Like follicles of other species, equine preovulatory follicles are characterized by their ability to secrete large amounts of 17 beta-estradiol, but it is not clear which follicular cell type is responsible for estradiol synthesis in mares. To better understand the relative roles of theca interna and granulosa cells in follicular steroidogenesis, presumptive ovulatory follicles were obtained from mares during early estrus (first or second day of estrus; n = 4) and during late estrus (fourth or fifth day of estrus; n = 4). Preparations of theca interna and granulosa cells were cultured for 3 days in medium with or without equine LH, FSH, LH plus FSH, or CG (100 ng/ml) in the presence or absence of 0.5 microM testosterone, and culture media were assayed for progesterone, androstenedione, and 17 beta-estradiol. Progesterone was the predominant steroid secreted by granulosa cells in the absence of exogenous testosterone. Its accumulation was significantly higher in cultures of granulosa cells from late vs. early estrus (P less than 0.05), and all gonadotropins stimulated progesterone secretion at both stages of follicular development (P less than 0.05). In contrast, granulosa cells secreted very low amounts of androstenedione in vitro, and only very small amounts of 17 beta-estradiol were produced when cells were cultured in medium without testosterone. However, the addition of testosterone caused a 170-fold increase over control values in estradiol accumulation over 3 days of culture (P less than 0.0001), clearly indicating the presence of a very active aromatase enzyme system in equine granulosa cells. Steroid secretion by theca interna differed in several respects from secretion by granulosa cells. Theca interna from early and late estrous follicles secreted negligible amounts of progesterone in vitro, and equine gonadotropins had no effect on its secretion. Also, theca interna secreted only small amounts of estradiol in vitro, and its accumulation was not increased by the addition of exogenous testosterone. Also, in contrast to granulosa cell cultures, androstenedione was the predominant steroid secreted by theca interna from early and late estrous follicles. In conclusion, this study does not support the current model of equine follicular steroidogenesis, which holds that 17 beta-estradiol biosynthesis derives primarily from the theca interna layer.(ABSTRACT TRUNCATED AT 400 WORDS)     

Immunolocalization of transforming growth factor-beta1 during follicular development and atresia in the mouse ovary

In each estrous cycle not all follicles recruited grow to ovulate, as some degenerate through the process of atresia. Apoptosis is the mechanism underlying follicle atresia. TGF-beta1 has been implicated in the induction and promotion of apoptosis in many cell types and it is expressed in the ovary. In this study immunohistochemistry was used to localize TGF-beta1 in order to correlate the growth factor expression with morphological follicular atresia during diestrus in mice. Small and medium sized follicles had no staining for TGF-beta1 in the granulosa or theca cell layer. Weak to moderate TGF-beta1 expression was present in the theca cells of both large healthy and atretic antral follicles. Large healthy antral follicles showed weak granulosa staining but this was not observed in atretic follicles. Strong TGF-beta1 staining was present in the interstitial, corpus luteum and oocytes of all follicle stages. These results suggest that in the mouse TGF-beta1 promote follicular growth and differentiation rather than follicular atresia.     

In vitro effects of follicle-stimulating hormone, luteinizing hormone, and prolactin on follicular deoxyribonucleic acid synthesis in the hamster

Follicles were dissected by hand or enzymatically from the ovary of the proestrous hamster at 0900 h and classified into 10 stages: stages 1-4, follicles with 1-4 layers of granulosa cells and no theca; stages 5-8, preantral follicles with 5 or more layers of granulosa cells and theca to small antral follicles; stage 9, intermediate-sized atretic antral follicles; and stage 10, healthy preovulatory antral follicles. Follicles were then incubated for 2 h with [3H]thymidine [( 3H]Tdr) in the absence or presence of gonadotropins and with incorporation of radionuclide into DNA as the end point. FSH (25 ng) significantly stimulated [3H]Tdr incorporation in all stages of follicular development with a latency of 2 h, and this effect was inhibited by 2 micrograms unlabeled Tdr. While FSH and PRL (25 and 100 ng) stimulated [3H]Tdr incorporation in all stages, LH (0.2-5 ng) action began from stage 5 onward, when definitive thecal cells and LH receptors started appearing. LH (5 ng) also suppressed 25 ng FSH-induced DNA synthesis in stages 5-10; however, stages 1-4 were unaffected. Significant increases in both intra- and extracellular cAMP levels occurred in follicles at stages 2-10 after FSH administration. In contrast, LH was active in stages 5-10, whereas PRL was ineffective. Follicular DNA synthesis increased markedly when stimulated by 8-bromo-cAMP (0.01-2 mM). These results show that gonadotropins act directly as a primary stimulus at the level of small primary and secondary follicles to regulate DNA synthesis and, thus, perhaps the growth and differentiation of granulosa and thecal cells; cAMP functions as one of the possible intracellular mediators of gonadotropin action in initiating DNA replication.     

Cell-specific expression of immunoreactive cholesterol side-chain cleavage cytochrome P-450 during follicular development in the rat ovary

Using a specific antiserum against rat cholesterol side-chain cleavage cytochrome P-450 (P-450scc), we examined the expression of this key steroidogenic enzyme during follicular development in PMSG-treated immature rats. The accumulation of the enzyme was monitored in ovary homogenates by quantitative immunodot blot assay, while expression of P-450scc in various cell types was visualized concomitantly by immunofluorescent staining of ovarian cryosections. Before PMSG treatment, no labeling of P-450scc could be observed in follicular granulosa cells. In contrast, steroidogenic cytochrome was markedly expressed in interstitial cells, part of theca interna cells, and hypertrophied theca of atretic follicles. As a result of PMSG treatment, the interstitial thecal cells promptly enriched their P-450scc content within 24 h, whereas the granulosa cells acquired the enzyme at a later time, between 30 and 48 h after hormone administration. After ovulation, many corpora lutea filled most of the ovarian volume, and the ovarian content of P-450scc was 47 times higher than that in control ovaries of untreated rats. In granulosa cell population of a single preovulatory follicle, a downward gradient of P-450scc expression was observed, starting high in the cells abutting the basal lamina and decreasing toward the cells lining the antrum. Cumulus cells failed to express P-450scc. Referring to the basal lamina, theca interna cells exhibited a reverse gradient of P-450scc expression, starting high in peripheral cells close to the theca externa layer and decreasing in cells located near the follicular basement membrane. Immunofluorescent labeling revealed a major difference between P-450scc expression in thecal cells compared to that in granulosa cells. While expression of P-450scc in granulosa cells was restricted exclusively to cells within preovulatory follicles, P-450scc labeling was observed throughout the ovary in thecal and interstitial cells associated with follicles at any phase of follicular maturation. Therefore, it may be proposed that the thecal and interstitial cells represent an all ovarian network which expresses its steroidogenic capacity at early stages of follicular maturation and thereby is able to supply androgens necessary for the follicular development.