Response of follicle cells to ovulatory stimuli within the follicle and in primary culture

Cultures of mural granulosa cells (mGCs) and cumulus oocyte complexes (COCs) were employed to investigate various aspects of follicle cell function and response to gonadotropins. Yet, such studies do not reveal the intricate cell-to-cell interactions in the whole follicle. Here we compare the ovulatory responses to LH/hCG or epiregulin (ER) of rat preovulatory follicles and of mGC and COC whether they were stimulated within the follicle or in primary cell cultures. The expression of TSG-6 and COX-2 mRNA varied according to the culture system and mode of stimulation. In primary cultures stimulated with LH or ER resulted in their lower expression as compared to stimulation of follicles. LH/hCG stimulated higher follicular and mGC AR, ER and EGFR mRNA levels than in primary mGC cultures. COCs stimulated by LH/hCG in vivo responded with AR, ER and EGFR mRNA expression, but not in culture where only EGFR mRNA was stimulated. The differences in gene expression of mGCs and COCs when stimulated within their intact follicle or in primary cultures revealed here underscore the important role of cell-cell interactions in follicle physiology. Therefore, results obtained in primary mGC cultures need careful validation in models reproducing such in situ interactions for revealing mGC activity within the intact follicle.

Resumption of oocyte meiosis in mammals: on models, meiosis activating sterols, steroids and EGF-like factors

De novo synthesis of meiosis activating sterols (MAS) was stimulated by LH- and AY-9944 in rat cultured follicles and cumulus oocyte complexes (COCs), but could not be measured in denuded oocytes. Thus, MAS synthesized by the somatic compartment of the follicle could serve as a signal for the resumption of meiosis. Nevertheless, the delay in germinal vesicle breakdown (GVB) after MAS or AY-9944 stimulation as compared with gonadotropins, obtained by several groups, remains the strongest evidence against the suggested role of MAS as an essential mediator of LH in meiosis resumption. Recently several studies using mammalian COCs in culture have implied that steroids, like in fish and amphibians, serve as signals in mediating the LH/hCG stimulation of meiosis. However, in these studies there was no clear distinction between the requirement for steroids for the acquisition of meiotic competence, oocyte and follicle wellbeing or as a signal for meiotic resumption. Further, some of the authors overlooked earlier studies showing that blocking ovarian or follicular steroidogenesis does not affect GVB, the first step of meiosis resumption. Finally, in vivo and in vitro studies in the rat confirm and extend recent studies showing that locally produced and released EGF-like factors, such as epiregulin, seem to mediate at least part of the LH/hCG actions on oocyte maturation and release of ova at ovulation.

Epidermal growth factor family members: endogenous mediators of the ovulatory response

Previous studies showed that epidermal growth factor (EGF) and TGFalpha mimic the action of LH on the resumption of oocyte maturation. We tested whether EGF-like agents, such as amphiregulin (AR), epiregulin (ER), and betacellulin (BTC), also mediate the LH stimulation of the ovulatory response in the rat. LH induced transient follicular expression of AR, ER, and BTC mRNA, reaching a maximum after 3-h incubation. Furthermore, the addition of ER, AR, and BTC to the culture medium could mimic some of LH actions. AR and ER fully simulated LH-induced resumption of meiosis in vitro, whereas BTC was less effective. To study the putative involvement of EGF-like factors in mediation of LH signal, the effect of the EGF receptor kinase inhibitor AG1478 was tested. When added with LH, AG1478, but not its inactive analog AG43, reduced EGF receptor phosphorylation and oocyte maturation compared with follicles treated with LH only. In addition to the inhibition of resumption of meiosis, AG1478 administration into the bursa (3 microg/bursa) resulted in 51% (P < 0.0005) inhibition of ovulation in the treated ovaries, compared with the untreated contralateral ones, as well as to the vehicle-treated ovaries (P < 0.02). LH, as well as ER, induced the expression of genes associated with the ovulatory response like rat hyaluronan synthase-2, cyclooxygenase-2, and TNFalpha-stimulated gene 6 mRNA, whereas AG1478 inhibited this effect of LH. Release of EGF-like factors from the membrane is dependent on activated metalloproteases. Indeed, Galardin, a broad-spectrum metalloprotease inhibitor, but not a specific matrix metalloprotease 2 and 9 inhibitor, suppressed meiotic maturation induced by LH. Conversely, meiotic maturation induced by ER was not affected by Galardin, thus, supporting the notion that LH releases follicular membrane-bound EGF-like agents. In summary, EGF-like factors such as ER, AR, and BTC seem to mediate, at least partially, the LH stimulation of oocyte maturation, ovulatory enzyme expression, and ovulation.

Role of phosphodiesterase type 3A in rat oocyte maturation

It is generally accepted that cyclic nucleotides are key signaling molecules in the control of oocyte meiotic resumption. Given the role of phosphodiesterases (PDEs) in cyclic nucleotide degradation, this study was undertaken to investigate the properties and regulation of PDEs expressed in rat oocytes. Cilostamide-sensitive PDE3 was the major activity detected in denuded oocytes, whereas no PDE3 activity could be detected in cumulus cells. Moreover, comparable levels of PDE3 activity were measured in cumulus-oocyte complexes (COCs) and in denuded oocytes. The oocyte PDE was recovered in the soluble fraction of the homogenate and immunoprecipitated with a specific PDE3A antibody. A significant and transient increase (P < 0.05) in PDE3 activity was measured in the oocytes after 30 min of culture (70 min after isolation) compared with immediately after collection (10 min after isolation). Conversely, no changes in activity were observed when denuded oocytes or cumulus cells were incubated for up to 130 min. Evaluation of oocyte maturation indicated that only 10% of oocytes had resumed meiosis at the peak of the PDE3 activity. A significant increase (P < 0.05) in PDE3 activity was measured in COCs when follicle-enclosed oocytes were cultured in the presence of hCG. Again, this increase preceded oocyte maturation. In conclusion, these data demonstrate that PDE3A is the major PDE form expressed in mammalian oocytes. PDE3A activity increases prior to resumption of meiosis in both spontaneous and gonadotropin-stimulated maturation. These findings strongly support the hypothesis that an increase in oocyte PDE3A activity is one of the intraoocyte mechanisms controlling resumption of meiosis in rat oocytes, at least in vitro.

Role of meiosis-activating sterols in rat oocyte maturation: effects of specific inhibitors and changes in the expression of lanosterol 14alpha-demethylase during the preovulatory period

In vitro studies on mouse oocytes have shown that two closely related sterols, subsequently named meiosis-activating sterols (MAS), can overcome the inhibitory effect of hypoxanthine on the resumption of meiosis. These sterols are synthesized by cytochrome P(450) lanosterol 14alpha-demethylase (LDM), a key enzyme in cholesterol biosynthesis. We have used specific inhibitors of LDM, azalanstat (RS-21607) and RS-21745, to test whether MAS is an obligatory mediator in the resumption of meiosis in the rat. Addition of azalanstat and RS-21745 (1-200 microM) to culture medium of rat isolated cumulus-enclosed oocyte and preovulatory follicle-enclosed oocyte stimulated by LH/hCG did not allow separation between their inhibition of the resumption of meiosis and the degeneration of oocytes. In both models, doses of the drug that inhibited oocyte maturation also increased oocyte degeneration. The inhibitors only partially suppressed follicular progesterone production. We have examined by reverse transcriptase-polymerase chain reaction, Western blotting, and immunocytochemistry the ovarian expression of LDM mRNA and protein during the preovulatory period. We did not find evidence for the stimulation of this enzyme by LH/hCG. The strongest staining by LDM antiserum was obtained in primordial and primary oocytes, and the staining was reduced with oocyte growth. In addition, strong LDM staining could be observed in some of the granulosa cells, especially of the corona radiata localized in close proximity to the oocyte. In conclusion, our results with specific inhibitors and molecular approaches do not reveal evidence to support the hypothesis that MAS is an obligatory step in the stimulation of the resumption of meiosis. Specific inhibitors of MAS synthesis did not prevent spontaneous or LH-stimulated meiosis at doses that have previously been shown to effectively suppress LDM activity. Much higher concentrations of the inhibitors, which affected meiosis, were detrimental to oocytes, leading to their degeneration. The timing of LDM expression in the ovary was incompatible with a role for MAS in meiosis. Finally, the preferential localization of LDM protein to the oocytes suggests MAS production in oocytes rather than its transport from the somatic compartment as implied by the proposed role of MAS as a cumulus-oocyte signal molecule.

Growth differentiation factor-9 stimulates rat theca-interstitial cell androgen biosynthesis

Growth differentiation factor-9 (GDF-9) was shown recently to be essential for early follicular development, including the appearance of the theca layer. Theca cells provide the androgen substrate for aromatization and estrogen production by granulosa cells. Using biologically active recombinant GDF-9 (rGDF-9) and an androgen-producing immortalized theca-interstitial cell (TIC) line or primary TIC, we have examined the action of this paracrine hormone on theca cell steroidogenesis. The effect of GDF-9 on TIC progesterone synthesis was marginal and inconsistent in the primary cultures. In immortalized theca cells, GDF-9 attenuated the forskolin-stimulated progesterone accumulation. More significantly, this oocyte-derived growth factor enhanced both basal and stimulated androstenedione accumulation in the primary and transformed TIC cultures. The effects of GDF-9 on steroidogenesis by preovulatory follicles were relatively modest. Likewise, it did not affect the maturation of follicle-enclosed oocytes. The effect of GDF-9, an oocyte product, on TIC androgen production suggests a regulatory role of the oocyte on theca cell function and hence on follicle development and differentiation. This direct effect of GDF-9 on thecal steroidogenesis is consistent with its recently demonstrated actions on thecal cell recruitment and differentiation.

Involvement of progesterone in gonadotrophin-induced pituitary adenylate cyclase-activating polypeptide gene expression in pre-ovulatory follicles of rat ovary

The present study was designed to determine whether progesterone might have a role in gonadotrophin-induced pituitary adenylate cyclase-activating polypeptide (Pacap) gene expression in rat ovary. Northern blot analysis revealed that treatment of pregnant mare's serum gonadotrophin (PMSG)-primed immature rats with the progestin antagonist RU486 or an inhibitor of 3beta-hydroxysteroid dehydrogenase epostane, 1 h before HCG, resulted in a dose-dependent inhibition of the HCG-induced Pacap gene expression. In-situ hybridization demonstrated that the number of pre-ovulatory follicles expressing Pacap mRNA in their granulosa cells was greatly reduced in ovaries treated with RU486. Moreover, the suppressive effect of RU486 or epostane on the LH-induced Pacap gene expression in cultured pre-ovulatory follicles was reversed by co-treatment with the synthetic progestin R5020. We further cloned the 5'-flanking region of the rat Pacap gene and identified the presence of a consensus progesterone receptor element. When luciferase fusion genes containing Pacap gene promoter were transiently transfected into granulosa cells of pre-ovulatory follicles, luciferase activity was markedly stimulated by LH. Treatment with RU486 or epostane resulted in partial suppression of LH-stimulated PACAP promoter activity. Taken together, these results indicate that progesterone, acting through progesterone receptors, plays a role in gonadotrophin induction of Pacap gene expression in granulosa cells of pre-ovulatory follicles, and thereby may be involved in the process of ovulation.

Molecular aspects of mammalian ovulation

Ovulation, recurring every reproductive cycle of the mammalian female and triggered by a surge of luteinizing hormone (LH) released from the pituitary is an essential prerequisite for fertilization and subsequent embryonic development. Here we shall review two of the biological responses leading to follicle rupture -- vascular changes and proteolysis. Naturally, our present knowledge is based mainly on work in a few species, such as the rat, the mouse and, to lesser extent the pig and monkeys and observations in the human. Therefore any generalizations to other mammals, should be considered as a working hypothesis yet to be confirmed. The LH surge stimulates, in the preovulatory follicles, a cascade of proteolytic enzymes, including plasminogen activator (PA), plasmin and matrix metalloproteinases (MMPs). These enzymes bring about the degradation of perifollicular matrix and, most notably, the decomposition of the meshwork of collagen fibers which provides the strength to follicular wall. Pharmacological blockage of any of these enzymes resulted in the reduction of ovulation rate. The increased ovarian proteolytic activity associated with ovulation is controlled by locally produced specific inhibitors, plasminogen activator inhibitor-1 (PAI-1) and tissue inhibitor of metalloproteases-1 (TIMP-1). The increased synthesis of these two specific proteinase inhibitors in the theca of growing follicles ensures their development by protecting them from enzymes diffusing from ovulatory follicles. The stimulation of ovulation by the gonadotropin results in an increase in follicular blood flow, hyperemia, increase in vascular permeability and a marked increase in follicular volume. These vascular changes and the proteolytic activity are triggered either directly by LH or by local mediators and factors produced in response to the gonadotropic stimulus. These mediators allow the tight coordination of these two cascades culminating in the rupture of follicle wall. We shall review here, briefly, the various mediatory systems that have been implicated in follicle rupture. These include steroids, vascular endothelial growth factor (VEGF), cytokines, eicosanoids, platelet activating factor (PAF), nitric oxide and nitric oxide synthase (NO/NOS), kinins and oxygen radicals.

Role of cyclic nucleotide phosphodiesterases in resumption of meiosis

In the follicles of the mammalian and amphibian ovary, oocyte maturation is arrested at the prophase of the first meiotic division. Prior to ovulation, oocytes reenter the cell cycle, complete the meiotic division, and extrude the first polar body. Work from several laboratories including ours has provided evidence that the cAMP-mediated signal transduction pathway plays an important role in regulation of meiosis, the cyclic nucleotide acting as a negative regulator of maturation. Since cAMP can be regulated both at the level of synthesis and degradation, our laboratory is investigating the role of phosphodiesterases (PDE) in the control of cAMP levels of oocytes. Using pharmacological and molecular tools, we have determined that a PDE3 is the enzyme involved in the control of cAMP levels in the oocytes. In vitro and in vivo studies have established that inhibition of the oocyte PDE3 blocks resumption of a PDE is per se sufficient to cause resumption of meiosis in an amphibian oocyte model. The pathways regulating this PDE isoform expressed in the oocyte is under investigation, as they may uncover the physiological signals controlling meiosis.

Phosphodiesterase 3 inhibitors suppress oocyte maturation and consequent pregnancy without affecting ovulation and cyclicity in rodents

During each reproductive cycle, a preovulatory surge of gonadotropins induces meiotic maturation of the oocyte in the preovulatory follicle followed by ovulation. Although gonadotropins stimulate cAMP production in somatic cells of the follicle, a decrease in intra-oocyte cAMP levels is required for resumption of meiosis in oocytes. Based on the observed compartmentalization of the cAMP-degrading enzyme, phosphodiesterase, in follicular somatic and germ cells, inhibitors of phosphodiesterase 3 were used to block meiosis in ovulating oocytes in rodents. By this strategy, we demonstrated that fertilization and pregnancy could be prevented without disturbing follicle rupture and normal estrous cyclicity. In contrast to conventional contraceptive pills that disrupt ovarian steroidogenesis and reproductive cycles, the present strategy achieves effective contraception by selective blockage of oocyte maturation and development without alterations in ovulation and reproductive cyclicity.

Effects of ketoconazole on ovulatory changes in the rat: implications on the role of a meiosis-activating sterol

In-vitro studies on mouse oocytes have shown that human follicular fluid and bull testes contain an activity which partially overrides the inhibitory action of hypoxanthine on meiosis. This activity was ascribed to two closely related sterols, subsequently named meiosis-activating sterols (MAS). We have used a potent inhibitor of sterol synthesis, ketoconazole, in order to test in vivo and in vitro whether MAS play a necessary physiological role in the resumption of meiosis in the rat. When administered systemically, ketoconazole (8.3-16.6 mg/rat) suppressed ovulation by 40%. Local unilateral administration of the drug into the ovarian bursa (1.25 mg/bursa) resulted in 75% inhibition of ovulation in comparison with the contralateral ovary. All the ovulated ova in the oviduct were mature. Histological examination of the ketoconazole-treated ovaries revealed mature oocytes trapped in follicles which failed to ovulate. Furthermore, extraction of oocytes from the large follicles of such ovaries revealed that 79% of them were mature. Addition of ketoconazole (0.0001-0.01 mM) to the culture medium did not affect significantly the spontaneous maturation of rat oocytes. However, ketoconazole at a higher concentration (0.1 mM) caused the degeneration of oocytes. Ketoconazole (0.01 mM) did not affect luteinizing hormone (LH)-stimulated oocyte maturation in explanted preovulatory follicles, even though it inhibited follicular progesterone production to levels below the hormone-free control follicles. At higher levels, ketoconazole caused the degeneration of follicles and the enclosed oocytes. In conclusion, using a potent inhibitor of MAS we have failed to confirm the suggested obligatory role of MAS in the resumption of meiosis in the rat both in vivo and in vitro.

Follicle-stimulating hormone enhances the development of preantral follicles in juvenile rats

The stimulatory effects of gonadotropins on antral and preovulatory follicles are well known, but conflicting results have been reported regarding the gonadotropin responsiveness and dependency of preantral follicles. Taking advantage of the relatively uniform development of the first wave of follicles in the postnatal rat ovary, we evaluated the role of endogenous and exogenous gonadotropins on preantral follicle development. Reduction of the high levels of gonadotropins present in juvenile rats by either hypophysectomy (at Day 15) or GnRH antagonist treatment (starting from Day 11 of age) resulted in decreased ovarian weight at Day 19 of age that was associated with a reduced number of developing follicles and increased atresia of remaining follicles. In contrast, treatment with FSHctp (a long-acting FSH agonist) in intact (Days 5-19 of age), hypophysectomized (Days 15-19), or GnRH antagonist-treated (Days 11-19) animals resulted in increased ovarian weight and follicle development as determined histologically and by inhibin-alpha expression. A dose-dependent stimulatory effect of hCG on ovarian weight was seen when animals were cotreated with FSHctp and the GnRH antagonist. At low doses of hCG, augmentation of antral follicle formation occurred, whereas higher doses of hCG led to morphological signs of luteinization. These findings demonstrate the important role of endogenous gonadotropins in preantral follicle development and indicate that preantral follicles are highly responsive to exogenous gonadotropins.

Early onset of deoxyribonucleic acid fragmentation during atresia of preovulatory ovarian follicles in rats

Atretic demise rather than ovulation is the ultimate fate of the vast majority of ovarian follicles in mammals, affecting 70-99.9% of the follicles in various species. Recent studies have established that atretic degeneration of follicles is an apoptotic process, heralded by endonuclease degradation of DNA at internucleosomal sites, which generates DNA fragments in size multiples of 185-200 bp that are seen as distinct ladder bands after agarose gel electrophoresis. Using the well-characterized model of inducing atresia of preovulatory follicles in vivo by hypophysectomy and analyzing DNA fragmentation by autoradiography of size-fractionated DNA labeled at the 3' ends by [12P] dideoxy-ATP, we have examined the timing of atretic changes. DNA degradation was related to morphological signs of atresia, ovulability, and changes in follicular steroidogenesis. Rats were hypophysectomized on the morning of the day of proestrus, after which largest follicles were collected at various times. DNA fragmentation was analyzed in groups of five follicles. The increase in DNA fragments of low molecular weight up to 4 h after hypophysectomy was negligible (101 +/- 10%; 0 h time = 100%) but progressed 8, 12, 24, 48, and 72 h after hypophysectomy (143 +/- 20%, 168 +/- 27%, 235 +/- 29%, 3299 +/- 1075%, and 2249 +/- 805%, respectively; p < 0.03, n = 5). At 48 and 72 h, the extent of DNA degradation was higher than that observed in follicles cultured in a serum-free medium for 24 h. Likewise, staining of DNA by 4',6-diamido-2-phenylindole hydrochloride revealed apoptotic nuclei at 8 h after hypophysectomy (p < 0.01), and the percentage of such nuclei progressively increased afterwards. Thus, the increase in DNA fragmentation appeared concomitantly with atretic changes observed in previous studies (a decrease in ovulability at 6 h, and a spontaneous increase in progesterone accumulation and decrease in androgen and estrogen in follicles explanted 6 h after hypophysectomy) and preceded atresia detectable by morphological changes at 24 h. Detection of internucleosomal DNA degradation in preovulatory follicles early in the atretic cascade underscores the central role of apoptosis in ovarian follicle atresia.

Oocyte maturation involves compartmentalization and opposing changes of cAMP levels in follicular somatic and germ cells: studies using selective phosphodiesterase inhibitors

The second messenger cAMP has been implicated in the regulation of mammalian and amphibian oocyte maturation. Although a decrease in intraoocyte levels of cAMP precedes germinal vesicle breakdown (GVBD), the gonadotropin induction of ovulation and oocyte maturation is associated with major increases of cAMP in ovarian follicles. In the mammalian system, isolated oocytes undergo spontaneous maturation in vitro but this process is blocked by treatment with a phosphodiesterase (PDE) inhibitor, IBMX, which increases intraoocyte cAMP levels. In contrast, the same inhibitor, when added to cultured follicles for a brief time, increases follicle cAMP levels, followed by the induction of GVBD. To resolve the paradoxical actions of this PDE inhibitor on the maturation of isolated and follicle-enclosed oocytes, we hypothesized that meiotic maturation requires opposing fluctuations of cAMP levels in the somatic granulosa and germ cells. Such opposing fluctuations may result from selective expression and regulation of PDEs in the somatic and germ cell compartments of the follicle. To test this hypothesis, PDE activity was manipulated in different follicular cells using type-specific inhibitors. The impact of the ensuing changes in cAMP levels in the two compartments was monitored by the induction of GVBD. In isolated oocytes, spontaneous GVBD was blocked by two inhibitors of type 3 PDE (cGMP-inhibited: CGI-PDE), milrinone and cilostamide. In contrast, treatment with an inhibitor for type 4 PDE (cAMP-specific), rolipram, was ineffective. These findings suggest that the oocyte expresses type 3 but not type 4 PDE and that increases in intraoocyte cAMP suppress GVBD. This hypothesis was confirmed by in situ hybridization studies with PDE3 and PDE4 probes. PDE3B mRNA was concentrated in oocytes while PDE4D was mainly expressed in granulosa cells. In cultured follicles, LH treatment induced oocyte maturation but the gonadotropin action was blocked by inhibitors of type 3 but not the type 4 PDE inhibitors. Furthermore, treatment with the type 4, but not the type 3, PDE inhibitor mimics the action of LH and induces oocyte maturation, presumably by increasing cAMP levels in granulosa cells. Our findings indicate that PDE subtypes 4 and 3 are located in follicle somatic and germ cells, respectively. Preferential inhibition of PDE 3 in the oocyte may lead to a delay in oocyte maturation without affecting the cAMP-induced ovulatory process in the somatic cells. Conversely, selective suppression of granulosa cell cAMP-PDE may enhance the gonadotropin induction of ovulation and oocyte maturation. Thus, in addition to the well-recognized differential expression and regulation of adenylate cyclase in the somatic and germ cell compartments of the follicle, we suggest that selective regulation and expression of PDEs may be involved in the regulation of cAMP levels and control of oocyte maturation in the preovulatory mammalian follicle.

Ovulation as a tissue remodelling process. Proteolysis and cumulus expansion

Ovulation, recurring every midcycle of the mammalian female and triggered by a surge of luteinizing hormone (LH) released from the pituitary, is an essential prerequisite for fertilization and subsequent embryonic development. Here we shall describe two of the biological components of the ovulatory response, cumulus expansion (frequently denoted as cumulus maturation) and the rupture of follicular wall, both crucial for the release of a fertilizable ovum. The role of a proteolytic cascade and its regulation by eicosanoids will be emphasized in relation to follicle rupture. The new data implicating cumulus maturation as an essential step for the release of the ovum and the apparent mediatory role of interleukin-1 in this process will be presented. LH/hCG stimulates, in the preovulatory follicles, a cascade of proteolytic enzymes, including plasminogen activator (PA), plasmin and matrix metalloproteinase 1 (MMP-1). These enzymes bring about the degradation of perifollicular matrix and, most notably, the decomposition of the meshwork of collagen fibers which provides the strength to follicular wall. Furthermore, pharmacological blockage of any of these enzymes resulted in inhibition of follicle rupture. LH/hCG stimulates, in addition, an increase in ovarian production of eicosanoids. These include prostaglandins, obtained from arachidonic acid via the cyclooxygenase pathway and leukotrienes, the products of lipoxygenase. Previous studies from our and other laboratories have demonstrated the ability of inhibitors of cyclooxygenase and of lipoxygenases to suppress ovulation in several mammalian species. MK-886, which inhibits the translocation of 5-lipoxygenase (5-LO) from the cytosol and its binding to the membranal 5-LO activating enzyme, suppressed dose-dependently follicular rupture from the treated ovary. Zymographic analysis of ovarian extracts from PMSG/hCG-stimulated rats revealed a band of collagenolytic activity at 52kD, corresponding to human MMP-1 and at 72kD, corresponding to human MMP-2. Both activities were markedly stimulated by administration of hCG and were significantly inhibited by indomethacin, NDGA or MK-886. Thus, eicosanoids seem to mediate LH stimulation of follicular collagenase. Interleukin-1 (IL-1) has been recently implicated in ovulation. The ability of an IL-1 receptor antagonist (ra) to block ovulation in vivo and in vitro has been demonstrated recently. Morphological examination of the ovulatory follicles failing to ovulate suggests that this effect is exerted by inhibiting cumulus oophorus expansion and detachment from mural granulosa cells. In vitro, IL-1ra attenuated the action of hCG and FSH on cumulus expansion and follicular hyaluronic acid synthesis. Thus, IL-1 seems to mediate and/or facilitate gonadotropin action on cumulus expansion, and hence on ovulation.

The involvement of nitric oxide in the ovulatory process in the rat

Nitric Oxide (NO) is now recognized as a mediator of several biological functions. In the present study we examined the effects of NO synthase (NOS) inhibitors on the ovulatory process in vivo, and whether this effect can be reversed by a NO generator. Immature eCG-hCG treated rats were injected intraperitonealy (ip) or unilaterally into the periovarian sac (intrabursal injection; ib) with inhibitors of the inducible form of NOS. Aminoguanidine (AG) suppressed ovulation in a dose-dependent manner, reaching a 54% inhibition at a dose of 20 mg/kg when injected ip (p < 0.001 vs. saline control). Likewise, local ib administration inhibited ovulation from the treated ovary; thus a dose of 2 mg/kg resulted in 48% inhibition, as compared to the contralateral ovary (p < 0.01). Similar results were obtained whether AG was administered 2 h prior to the stimulation of ovulation by hCG or deferred up to 4 h afterwards. An additional NOS inhibitor, NG-methyl-L-arginine (L-NMA) suppressed ovulation, albeit to a lower extent. Intrabursal administration of L-NMA (0.1 and 1 mg/kg) resulted in 34% and 32% inhibition, respectively (p < 0.05 vs. the saline treated control). The same doses of NG-methyl-D-arginine (D-NMA) did not inhibit ovulation significantly compared to the saline treated control. When sodium nitroprusside (0.5 mg/kg), a NO generator, was injected concomitantly with AG, it completely reversed its inhibitory action on ovulation. Thus, we have demonstrated the ability of NOS inhibitors to suppress hCG-induced ovulation in the rat in vivo. The specificity of this effect is confirmed by the ability of a NO generator to reverse the inhibitory action of AG. In conclusion, the ovarian NO/NOS system seems to be necessary for follicle rupture during ovulation.

Gonadotropin suppression of apoptosis in cultured preovulatory follicles: mediatory role of endogenous insulin-like growth factor I

Although the majority of ovarian follicles undergo atresia through a mechanism involving apoptotic cell death, in vivo studies concerning the hormonal regulation of atresia have been difficult due to the presence of heterogeneous population of follicles in the ovary. In the present study, the regulation of follicle apoptosis by gonadotropins, insulin-like growth factor I (IGF-I), and IGF-binding protein 3 (IGFBP-3) was examined using a serum-free culture of preovulatory follicles. Immature rats at 26 days of age received a single dose of PMSG. Two days later, the largest preovulatory follicles were collected for in vitro culture with or without hormones. After 24 h of culture, follicular apoptotic DNA fragmentation was analyzed by autoradiography of size-fractionated DNA labeled at 3'-ends by [32P]dideoxy-ATP. A spontaneous increase in apoptotic DNA fragmentation occurred after 24 h of culture in the absence of hormones, whereas treatment with human CG (hCG) or FSH suppressed follicular apoptosis in a dose-dependent manner, with 0.1 microgram/ml causing maximal suppression by 60-62%. Cotreatment with hCG and FSH had no additional effect. Like gonadotropins, treatment with IGF-I and insulin also suppressed the spontaneous onset of apoptosis, with IGF-I being more effective than insulin. Cotreatment with IGFBP-3 and hCG dose-dependently reversed the suppressive effect of hCG on apoptosis by 42%, suggesting a mediatory role of endogenously produced IGF-I. The addition of IGFBP-3 also blocked the suppressive action of IGF-I by 49%, whereas it did not affect the suppressive action of an IGF-I agonist or insulin. Treatment with IGFBP-3 alone had no effect on apoptotic DNA fragmentation. Estrogen and progesterone production by the cultured follicles were also analyzed by RIA. Gonadotropin treatment resulted in a marked stimulation of the production of both steroid productions. In contrast, treatment with IGF-I caused a small increase in estrogen but decreased progesterone production. Although treatment with IGFBP-3 alone decreased both estrogen and progesterone production, cotreatment with IGFBP-3 and hCG resulted in a slight decrease in estrogen production but an increase in progesterone production. Furthermore, IGFBP-3 did not affect IGF-I action on steroid production. To further substantiate the hypothesis that IGFBP-3 blocks the suppressive effect of hCG on apoptosis by neutralizing endogenously produced IGF-I, solution hybridization analysis was performed, and hCG treatment was shown to increase IGF-I messenger RNA levels in cultured follicles by 1.9-fold.(ABSTRACT TRUNCATED AT 400 WORDS)

Interleukin-1 receptor antagonist suppresses human chorionic gonadotropin-induced ovulation in the rat

Indirect evidence has implicated the interleukin-1 (IL-1) system in ovulation. Thus, the ability of IL-1 beta to induce ovulation in rat and rabbit perfused ovaries has been demonstrated. In the present study, the involvement of the IL-1 system in ovulation was directly tested in vivo, in the rat model. For this purpose, the natural inhibitor of the IL-1 system, interleukin-1 receptor antagonist (IL-1ra), was administered locally by use of an intrabursal injection route. Twenty-six-day-old Sprague-Dawley rats received injections of eCG (10 IU), followed 56 h later by hCG (15 IU). IL-1ra (75 micrograms/bursa) was administered locally into the periovarian sac, 6 h (n = 5), 2 h (n = 11), and 0 h (n = 5) before hCG administration. Control animals (n = 10) received injections of the same volume (50 microliters) of vehicle (PBS). IL-1ra administered locally into the periovarian sac inhibited ovulation from the treated ovary, reaching 40% inhibition (p < 0.05) when injected 2 h prior to hCG, as compared to the untreated contralateral ovary (6 +/- 1.4 ova vs. 10 +/- 1.8 ova) and PBS-injected control ovaries (6 +/- 1.4 ova vs. 8.2 +/- 0.7). Injection of IL-1ra 6 h before or concomitantly with hCG did not affect the ovulation rate. Internucleosomal DNA fragmentation was evaluated by 3' end-labeling and autoradiography for detecting apoptotic changes. No difference in DNA fragmentation was found between treated and untreated ovaries.(ABSTRACT TRUNCATED AT 250 WORDS)

In vivo measurement of rat ovarian collagenolytic activities

Ovarian collagenases are necessary for the process of ovulation, and they are believed to be activated by the preovulatory LH surge. This information is largely based on in vitro investigations in which the balance between inhibitory and stimulatory principles involved in the activation of collagenase are largely disrupted. Therefore, we developed a simple and reliable method to measure collagenolytic activity in vivo in freely moving rats. By the use of a microdialysis system, a peptide coupled with methyl-coumarin is perfused into the bursa of the ovary. Collagenolytic enzymes cleave this peptide, and the cleaved fragments rediffuse into the microdialysis system. The effluent is collected in fractions, and the peptide-methyl-coumarin complex is cleaved, which results in liberation of fluorescent methyl-coumarin. This assay is linear over a wide range of collagenolytic activity, and other proteases, such as trypsin or plasmin, do not give any fluorescent signal. In proestrous rats, collagenolytic activity increases after the onset of the preovulatory LH surge. In animals in which the LH surge was disrupted by the surgical procedure but had a normal proestrous PRL surge, neither progesterone nor collagenolytic activity increased in the perfusate fluid. This indicates that it is only LH, not PRL, that activates follicular collagenolytic enzymes. Similar results were obtained in immature PMSG/hCG-treated animals. Using a well established zymographic assay, these results were confirmed, and it was further demonstrated that type I and type IV collagenase are active in the rat ovary.

Severe leukocyte depletion does not affect follicular rupture in the rat

This study was initiated in order to examine the involvement of leukocytes in follicular rupture in the rat. To evaluate changes in ovarian neutrophil population, ovaries from eCG-primed (15 IU s.c. on Days 25-26) rats were collected 0, 3, 6, and 9 h after hCG (4 IU) administration, and ovarian content of neutrophils was estimated by assaying myeloperoxidase (MPO) activity. The stimulation of hCG increased ovarian MPO activity within 6 h (p < 0.01). Coadministration of inhibitors of eicosanoid synthesis into the ovarian bursa (0.5 mg/bursa) markedly augmented the action of hCG on ovarian MPO activity (p < 0.0001). To examine the possible participation of leukocytes in the process of follicular rupture, peripheral leukocytes were depleted by a single i.v. injection of vinblastine sulfate or cyclophosphamide 4 days before hCG treatment. In spite of a severe depletion in the number of circulating neutrophils or total leukocytes, ovulation rate remained normal. The hCG-stimulated increase in ovarian MPO activity reflects influx of neutrophils into the ovaries during the periovulatory period, and inhibitors of eicosanoid synthesis, which suppress ovulation, further enhance this increase. Nevertheless, the periovulatory rise in ovarian neutrophil content does not seem to be obligatory for follicular rupture. Thus, inhibitors of eicosanoid synthesis block ovulation in the face of an increase in ovarian neutrophil content. Likewise, severe depletion of peripheral neutrophil or total leukocyte counts did not prevent ovulation. The observed influx of neutrophils into the ovary seems to be a consequence of vascular changes associated with the ovulatory response, rather than an obligatory requirement for follicular rupture.

Localization of preovulatory expression of plasminogen activator inhibitor type-1 and tissue inhibitor of metalloproteinase type-1 mRNAs in the rat ovary

Proteinases and their inhibitors control follicular connective tissue remodeling associated with follicular rupture. We examined the regulation and cellular localization of plasminogen activator inhibitor type-1 (PAI-1) and tissue inhibitor of metalloproteinase type-1 (TIMP-1) mRNAs by in situ hybridization. [35S]UTP-labeled RNA probes were hybridized to ovarian sections of eCG-primed immature rats treated with hCG. Before hCG stimulation of ovulation, very low expression of PAI-1 mRNA was observed in theca cells. After hCG administration, expression of PAI-1 mRNA was increased in theca cells of most antral follicles, whereas expression in granulosa cells was limited to preovulatory follicles and only to areas where the basal membrane was dissociated. Before hCG treatment, low expression of TIMP-1 mRNA was observed in theca cells, but not in granulosa cells. After hCG treatment, TIMP-1 mRNA was greatly stimulated in theca cells irrespective of follicle size, while the expression in granulosa cells was limited to large antral follicles. The present study demonstrates cell-specific expression of PAI-1 and TIMP-1 mRNAs in the LH/hCG-stimulated ovary, thus confirming the localized control of preovulatory proteolysis by coexpression of both enzymes and their respective inhibitors.

Preovulatory changes in the perifollicular capillary network in the rat: role of eicosanoids

The aim of this study was to evaluate morphometrically the influence of ovulation-inhibiting doses of indomethacin, an inhibitor of the cyclooxygenase pathway, and esculetin and caffeic acid, inhibitors of the lipoxygenase pathway, on the dilatation of the perifollicular capillary network in the theca interna. The development of the perifollicular capillary network as a function of follicular size and the changes in the vascular lumen were examined by light microscopy on a series of semithin cross sections of rat ovaries. The number of capillaries in the theca interna increased linearly with increasing follicle diameter. Thus, the relative number of capillaries in the theca interna supplying the avascular stratum granulosum remained constant. This indicates that follicular function is not regulated through changes in the number of capillaries in the theca interna. After hCG injection, an increase in the capillary area could be observed in follicles having a diameter of more than 600 microns. Indomethacin administration increased the capillary area of the ovulatory follicles as compared to the untreated side only at 6 h after treatment. By contrast, treatment with inhibitors of lipoxygenase resulted in a significant decrease in the capillary area of large follicles at all times examined (3, 6, and 9 h after hCG injection). Nevertheless, since both types of eicosanoid inhibitors suppressed follicle rupture, in spite of their opposing actions on the capillary area, it seems unlikely that their action on ovulation is primarily due to their effect on this parameter.

Preovulatory changes in ovarian expression of collagenases and tissue metalloproteinase inhibitor messenger ribonucleic acid: role of eicosanoids

The preovulatory surge of gonadotropins activates a cascade of proteolytic enzymes resulting in the rupture of the follicular wall and the release of a fertilizable ovum during ovulation. In the rat the process is initiated by a rise in follicular tissue-type plasminogen activator, produced predominantly in granulosa cells. Recent studies revealed a preovulatory increase in ovarian collagenolytic activity in vivo and an increase in activatable collagenase in vitro. In view of the complicated control of mammalian collagenase synthesis and activity by local inhibitors and activators, we examined the expression of ovarian interstitial and type IV collagenases and tissue inhibitor of metalloproteinase (TIMP) mRNA after an ovulatory stimulus. Ovarian mRNA was isolated from immature PMSG-treated rats 3, 6, and 9 h after hCG stimulation. Northern blot analyses revealed a mRNA of 1.7 kilobases (kb) hybridizing with the human interstitial collagenase cDNA probe. The levels of this mRNA showed a 25-fold increase between 3-6 h after hCG stimulation. The human cDNA probe of collagenase IV hybridized with a mRNA of 3.1 kb, which showed only a 4-fold increase 9 h after hCG treatment. The interstitial collagenase mRNA was expressed in both granulosa cells of preovulatory follicles and the residual ovarian tissue, whereas the expression of collagenase IV mRNA was limited to the residual tissue. Inhibitors of eicosanoid synthesis, previously shown to block ovulation and the LH/hCG-induced rise in ovarian collagenolysis, suppressed the gonadotropic stimulation of interstitial collagenase mRNA, but slightly stimulated that of collagenase IV. The mouse cDNA probe of TIMP hybridized with a 0.9-kb mRNA, which was stimulated by hCG to reach a maximum (7- to 8-fold increase) between 6-9 h after stimulation. TIMP was expressed and stimulated in both the granulosa cells and the residual tissue. Inhibitors of eicosanoid synthesis did not affect the gonadotropic stimulation of TIMP mRNA. These data support the suggested role of interstitial collagenase in follicle rupture and the essential role of eicosanoids in the mediation of gonadotropic stimulation of interstitial collagenase production and action. The observed stimulation of TIMP mRNA expression by the gonadotropin and the lack of any effect of eicosanoid synthesis inhibitors on this action of LH/hCG offer an additional mechanism by which these inhibitors may block ovulation. Thus, the suppression of ovulation by inhibitors of eicosanoid synthesis may result from selective inhibition of interstitial collagenase expression and undisturbed gonadotropin-stimulated TIMP expression.

Recombinant follicle-stimulating hormone induces ovulation and tissue plasminogen activator expression in hypophysectomized rats

Ovulation in mammals is preceded by surges of the two pituitary gonadotropins, LH and FSH. Although previous studies have shown that purified FSH induces ovulation when administered to hypophysectomized rats, proof that FSH has inherent ovulatory potential is lacking because all FSH preparations have varying degrees of residual LH. To determine if FSH alone can induce ovulation, we generated LH-free recombinant FSH (RCFSH) by culturing eukaryotic cells transfected with the human common alpha- and FSH beta-subunit genes. Immature hypophysectomized rats were implanted with estrogen and then primed with PMSG (15 IU, sc). Fifty-two hours later, either RCFSH or hCG was injected (sc) to induce ovulation. A dose-dependent increase in the ovulation rate was stimulated by RCFSH, reaching 100% ovulation at 18 IU/rat, comparable to that achieved with 12 IU hCG. The maximum number of oocytes ovulated per ovary was similar for both groups. Ovulation induced by either RCFSH or hCG was time dependent and associated with a periovulatory increase in the ovarian activity and message levels of tissue-type plasminogen activator, a protease important in the preovulatory degradation of the follicle wall. Because PMSG has inherent LH-like activity in rats, we also implanted hypophysectomized rats with a minipump (sc) that released RCFSH (4 IU/day) to induce follicle growth. Fifty-two hours later, a single sc injection of a surge dose (20 IU) of RCFSH also induced ovulation, further indicating the ability of FSH alone to induce both follicle growth and ovulation. To test whether FSH can also induce ovulation in adult animals, rats were hypophysectomized on proestrous morning and treated with increasing doses of RCFSH (ip) to induce ovulation. At 7.8 IU RCFSH, all rats ovulated, with about 10 oocytes/rat. These results demonstrate that RCFSH is capable of inducing ovulation in hypophysectomized immature and adult rats, with associated increases in ovarian tissue-type plasminogen activator gene expression. Thus, FSH may be involved in follicular rupture in addition to its role in follicle recruitment and maturation. The preovulatory surges of both LH and FSH may represent a protective mechanism to ensure an optimal ovulatory stimulus. The present finding also serves as the basis to formulate new ovulation induction protocols.

Basic fibroblast growth factor induction of granulosa cell tissue-type plasminogen activator expression and oocyte maturation: potential role as a paracrine ovarian hormone

Gonadotropin-induced ovulation is associated with oocyte maturation and preovulatory increases of tissue plasminogen activator (tPA) expression. Basic fibroblast growth factor (bFGF), an angiogenic factor found in many organs including the ovary, modulates steroidogenesis in granulosa cells and increases PA activity in endothelial cells. Here studies were performed to examine the possible roles of bFGF as an intragonadal regulator of tPA expression and oocyte maturation. In cultured granulosa cells, bFGF caused a time-dependent (onset at 24 h) and dose-dependent (ED50 = 0.6 nM) increase (up to 5-fold) in tPA enzyme activity as measured by the fibrin overlay technique. Northern blot hybridization also revealed that treatment of cells with bFGF (2 nM) increased the level of the 22S tPA messenger RNA. Slot blot analysis indicated that the effects of bFGF were time dependent and dose dependent; tPA message levels increase before tPA activity levels. bFGF (0.6 nM) also significantly increased granulosa cell cAMP production in both the absence and presence of a phosphodiesterase inhibitor. In follicle-enclosed oocytes incubated for 24 h in media with or without increasing concentrations of LH or bFGF, germinal vesicle breakdown was observed in only 1.6% of controls, but 85% of LH (1 microgram/ml)-treated oocytes underwent maturation. Likewise, bFGF induced germinal vesicle breakdown (10-80%) over a dose range of 0.6 to 333 nM. In the same follicles, bFGF, like LH, also stimulated prostaglandin E production. These results, coupled with the identification of bFGF in growing follicles, suggest that bFGF acts as an intraovarian inducer of granulosa cell tPA gene expression and oocyte maturation.

The biological role of the carboxyl-terminal extension of human chorionic gonadotropin [corrected] beta-subunit

hCG is a member of a family of glycoprotein hormones which share a common alpha-subunit, but differ in their hormone-specific beta-subunits. The CG beta-subunit is unique in that it contains a hydrophilic carboxyl-terminal extension with four serine O-linked oligosaccharides. To examine the role of the O-linked oligosaccharides and the carboxyl-terminal extension of hCG beta on receptor binding, steroidogenesis in vitro, and ovulation induction in vivo, site-directed mutagenesis and gene transfer methods were used. Wild-type hCG alpha and hCG beta expression vectors were transfected into an O-glycosylation mutant Chinese hamster ovary cell line to produce intact dimer hCG lacking the beta-subunit O-linked oligosaccharide units. In addition, a mutant hCG beta gene (CG beta delta T) was generated which contained a premature termination signal at codon 115. This gene was cotransfected with the hCG alpha gene into Chinese hamster ovary cells to produce hCG dimer which lacked the carboxyl-terminal amino acids 115-145 of hCG beta (truncated hCG). The O-linked oligosaccharide deficient or truncated hCG derivatives were examined for their ability to bind to the mouse LH/hCG receptor and stimulate cAMP and steroidogenesis in vitro. These studies show that the O-linked oligosaccharides and carboxyl-terminal extension play a minor role in receptor binding and signal transduction. In contrast, comparison of the stimulatory effects of truncated and wild-type hCG in a rat ovulation assay in vivo via either intrabursal or iv injection revealed that the truncated derivative was approximately 3-fold less active than wild-type hCG. These findings indicate that the carboxyl-terminal extension of hCG beta and associated O-linked oligosaccharides are not important for receptor binding or in vitro signal transduction, but are critical for in vivo biological responses.

Effects of transforming growth factors and inhibin-related proteins on rat preovulatory graafian follicles in vitro

In view of recent reports on ovarian production and action of transforming growth factors (TGFs) and inhibin-related proteins (inhibin, activin, and follistatin), we have examined the effects of these hormones on the function of preovulatory follicles in vitro. Individual preovulatory follicles were obtained from PMSG-treated rats and incubated with these hormones in the absence or presence of LH. Oocyte maturation and progesterone production were monitored. Treatment with TGF alpha alone, but not with TGF beta or inhibin-related proteins, mimicked the action of LH on oocyte maturation by inducing the resumption of meiosis in follicle-enclosed oocytes (56.6% and 80.6% oocytes resumed meiosis in the presence of 0.5 and 1.0 microgram/ml TGF alpha, respectively). In follicle cultures treated with LH to induce oocyte maturation, cotreatment with inhibin and TGF beta (30-50 ng/ml), but not other related hormones, partially inhibited LH-induced meiosis in follicle-enclosed oocytes (from 82% mature ova in the presence of LH to 51% and 55% mature ova with TGF beta and inhibin, respectively). In contrast to follicle cultures, none of the hormones tested significantly affected the spontaneous maturation of rat oocytes explanted from their follicles and cultured within their cumulus mass for 4 h. Treatment with TGF alpha, but not with TGF beta, inhibin, activin, or follistatin, stimulated progesterone production. The present study demonstrated that TGF alpha, like LH, induces oocyte maturation and progesterone production in preovulatory rat follicles. Furthermore, inhibin and TGF beta suppressed LH-induced resumption of meiosis in follicle-enclosed oocytes. Because these growth factors and inhibin-related proteins are synthesized by follicle cells, they may play important roles in regulating follicular development and activity.

Human follicular fluid protease and antiprotease activities: a suggested correlation with ability of oocytes to undergo in vitro fertilization

Plasminogen activator activity was determined in human follicular fluids (FFs) obtained during in vitro fertilization procedures. The fibrinolytic activity of plasminogen activator was significantly higher in fluids from follicles that contained oocytes that were later found to fertilize in vitro (group F) as compared with fluids from follicles that contained oocytes that failed to fertilize (NF). To assess whether this difference in overt plasminogen activator activity reflects differences in conversion of an inactive, latent plasminogen activator to the active enzyme, the ability of exogenous trypsin to enhance plasminogen activation was measured. The plasminogen-dependent hydrolysis of the chromogenic substrate S-2444 in presence of trasylol (Bayer, Leverkusen, Germany) was taken as a measure of plasminogen activator activity in these experiments. No activity was found in untreated FFs, while exposure to trypsin resulted in emergence of marked plasminogen activator activity. In addition, FFs exhibited trasylol-sensitive chromogenic activity indicative of serine-protease activity. Both the plasminogen activator and serine-protease levels after tryptic activation were significantly higher in NF than in F samples. Thus, while F samples have most of their plasminogen activator in an active form, NF samples have most of their plasminogen activator in a latent, trypsin-activatable form. Follicular fluids also contain inhibitory activities toward plasmin and trypsin. The inhibition of these enzymes correlates positively with the latency of plasminogen activator. These results suggest a direct relationship between the ability of oocytes to fertilize and the overt to latent plasminogen activator activity ratios in the FFs.

The involvement of platelet activating factor in ovulation

Follicle rupture during ovulation is associated with inflammation-like changes. Because platelet activating factor (PAF) participates in the inflammatory process, the effect of a PAF-specific antagonist, BN52021, on the ovulatory response was tested in rats. BN52021, administered locally, inhibited follicle rupture in rats stimulated to ovulate with human chorionic gonadotropin (hCG). In addition to suppressing rupture of the follicles, this antagonist suppressed the hCG-stimulated increase in ovarian collagenolysis and vascular permeability. The inhibition of ovulation of BN52021 could be reversed by simultaneous administration of PAF. Furthermore, PAF partially reversed the blockage of ovulation by inhibitors of eicosanoid synthesis. Collectively, these results suggest the involvement of PAF in ovulation. Its role seems to be closely related to the metabolism of arachidonic acid. Thus, modulation of PAF action may serve as an additional target for regulation of reproduction via its action on ovulation.

Tissue-type plasminogen activator in rat oocytes: expression during the periovulatory period, after fertilization, and during follicular atresia

The regulation of tissue-type plasminogen activator (tPA) in rat oocytes during the periovulatory period, in early embryos, and in oocytes during induced follicular atresia was studied using a quantitative chromogenic substrate assay. Oocytes and early embryos were collected from three ovulation models: 1) intact immature female rats treated with PMSG, followed by hCG 48 h later; 2) hypophysectomized immature rats treated with PMSG, followed by a GnRH agonist (GnRHa) 56 h later; and 3) adult cyclic rats on the mornings of proestrus and estrus and up to 5 days after fertilization. In addition, follicular atresia was induced by either withdrawal of diethylstilbestrol (DES) for 2 days or injection of GnRHa for 2 days in hypophysectomized DES-implanted immature rats. Treatment with PMSG alone did not increase oocyte tPA content (5-20 microIU/oocyte) in either immature rat model, but treatment with either hCG or GnRHa induced meiotic maturation and ovulation and increased tPA activity to 80 and 140 microIU/oocyte 24 h after hCG and GnRHa treatment, respectively. Northern blot analysis of total RNA extracted from oocytes of PMSG-treated rats indicated the presence of a specific tPA message at 22S. tPA levels were low in preovulatory oocytes obtained on proestrus morning and increased in ovulated oocytes on estrus morning. After fertilization, tPA levels remained high in the embryos on days 1-4 of pregnancy, but dropped dramatically on day 5. Furthermore, oocytes from atretic follicles of hypophysectomized DES-implanted rats after either DES withdrawal or GnRHa treatment contained elevated levels of tPA, coincident with germinal vesicle breakdown (GVBD). Immunohistochemical staining revealed tPA antigen only in those oocytes that had undergone apparent meiotic maturation, as confirmed by GVBD. Thus, oocytes contain tPA mRNA and synthesize the active protease under a variety of stimuli which result in GVBD. The observed periovulatory increase in oocyte tPA activity, its maintenance until day 5 of pregnancy, and expression of tPA in nonovulatory oocytes of atretic follicles suggest diverse functions for the oocyte and embryo tPA.

Suppression of ovulation rate by antibodies to tissue-type plasminogen activator and alpha 2-antiplasmin

Indirect evidence has suggested a role for plasminogen activator (PA) in ovulation. Our recent studies demonstrated that 1) tissue-type PA (tPA) is the predominant PA produced by preovulatory rat follicles in response to gonadotropins or GnRH; and 2) several inhibitors of the serine proteases, to which PA and plasmin belong, block ovulation. Here, the role of tPA and plasmin in ovulation was examined directly by the use of specific antibodies to tPA and alpha 2-antiplasmin (alpha 2AP). Immature female rats at 25-26 days of age were treated (sc) with 15 IU PMSG to induce multiple preovulatory follicles. Fifty-four hours later, tPA antibodies and alpha 2AP were injected into one of the ovarian bursae to check their ability to block ovulation, which was initiated with an ovulatory dose (4 IU) of hCG. The data are expressed as percent inhibition of ovulation in the treated vs. the untreated ovaries. A significant decrease in the ovulation rate was obtained by administration of 500 micrograms antibodies to tPA (39.6%) or 1-50 micrograms alpha 2AP (36-44%), whereas minimal inhibition (12%) was found at lower doses of anti-tPA (10 micrograms) or alpha 2AP (0.1 micrograms). Furthermore, nonimmune immunoglobulin G (500 micrograms) and heat-inactivated alpha 2AP were not effective. Anti-tPA and alpha 2AP suppressed ovulation only when injected at the time of hCG administration; later injections (4-h delay) were ineffective, suggesting that PA and plasmin are involved in the early follicular responses to the ovulatory stimulus. Histological observation of the ovaries did not reveal any pathological changes associated with the anti-tPA and alpha 2AP treatment. Suppression of ovulation, as evidenced by decreased number of tubal ova, was frequently accompanied with intraovarian release of the eggs into the follicular thecal compartment. Thus, these results provide direct evidence for an essential role of tPA and plasmin in ovulation.

Modulatory role of eicosanoids in vascular changes during the preovulatory period in the rat

Previous studies have demonstrated the involvement of eicosanoids (prostaglandins and hydroxyperoxides, including leukotrienes) in ovulation in several mammalian species. In this study, the role played by eicosanoids in the vascular changes that occur in the immediate preovulatory period after human chorionic gonadotropin (hCG) stimulation was examined in the rat. Changes in the ovarian uptake of two iodinated proteins were examined 30 minutes after i.v. injection of 125I-bovine serum albumin (BSA, Mr = 68,000) and 125I-alpha 2-macroglobulin (alpha 2M, Mr = 750,000). Uptake was measured during 30 min, 0, 3, 6, and 9 h after induction of ovulation by an i.p. injection of human chorionic gonadotropin (hCG, 10 IU). hCG enhanced the uptake of both iodinated proteins, with peak uptake values at 6 and 9 h. Intra-bursal injections of an ovulation inhibiting dose (0.5 mg/bursa) of indomethacin-a cycooxygenase inhibitor-and nordihydroguaiaretic acid (NDGA), esculetin, or caffeic acid--inhibitors of lipoxygenase--concomitantly with hCG attenuated the action of the hormone on 125I-BSA uptake. Indomethacin and esculetin were without effect on the uptake of alpha 2M. Ovarian and follicular blood flow was measured using 113Sn-microspheres. hCG increased ovarian and follicular blood flow with the most pronounced effect at the early time of 1.5 h. Indomethacin and NDGA did not attenuate this action of hCG. Accordingly, ovarian vascular resistance was reduced by hCG at 1.5, 6, and 9 h post-hCG, respectively, and indomethacin and NDGA had no significant effects. We suggest that one way in which eicosanoids are involved in follicular rupture is by their modulation of vascular permeability as revealed by uptake of the protein marker albumin.

Immunopurified anti-müllerian hormone does not inhibit spontaneous resumption of meiosis in vitro of rat oocytes

The ability of immunopurified, biologically potent anti-Müllerian hormone (AMH) to inhibit the spontaneous resumption of meiosis of rat oocytes was tested in vitro. Two different batches of AMH in the range of 0.75-9.0 micrograms/protein did not suppress the spontaneous resumption of meiosis. Neither did AMH (6 micrograms/ml) induce meiotic resumption of follicle-enclosed oocytes in culture. It is concluded, therefore, that AMH has no oocyte meiosis-inhibiting activity.

Steroids and follicular rupture at ovulation

The preovulatory surge of gonadotropins stimulates follicular steroidogenesis and changes from estrogen as the major product to progesterone. We shall overview the studies dealing with the role of ovarian steroidogenesis in follicular rupture at ovulation. Several inhibitors of steroidogenesis blocked follicular rupture in vivo. Likewise, RU 38486 partially blocked ovulation triggered by hCG. Collectively, these data support the knowledge that follicular steroidogenesis is required for ovulation. Recent studies confirmed the essential role of plasminogen activator (PA) in follicular rupture. The LH stimulation of PA activity was partially blocked by several inhibitors of steroidogenesis and it could be restored by the addition of progesterone, testosterone and estradiol-17 beta, but not the non-aromatizable 5 alpha-dihydrotestosterone. Gonadotropic stimulation enhanced only the synthesis of tissue type PA (t-PA) and not that of urokinase. Likewise, inhibition of steroidogenesis, reduced only the synthesis of t-PA and was reversed by addition of estradiol-17 beta. It seems, therefore, that follicular steroids, most probably estrogen, are involved in the preovulatory rise in follicular t-PA activity.

Detection of vasoactive intestinal peptide-encoding messenger ribonucleic acid in the rat ovaries

Vasoactive intestinal peptide (VIP) has recently been detected in rat ovaries and has been shown to stimulate steroidogenesis by cultured rat granulosa cells. In this study we investigated whether the VIP-messenger RNA (mRNA) can be detected in the ovaries, thus suggesting local synthesis of the peptide. To study VIP-gene expression, a sensitive RNA detection assay which uses in vitro transcribed RNA probes corresponding to specific exons of the VIP gene was developed. Using this method, an approximately 2000-base RNA band containing the coding sequences for VIP was detected in rat ovaries. This RNA also contains the coding sequences for the VIP-related peptide (peptide-histidine-methionine). An identical VIP-encoding RNA was previously identified in the rat cerebral cortex. However, the VIP-mRNA quantity in the cortex was 12-fold-higher as compared to the ovaries. These results may reflect the differences in VIP concentration in the two organs. The finding of VIP-encoding mRNA in the rat ovaries suggests a local synthesis of VIP in the ovaries.

Intrafollicular distribution of plasminogen activators and their hormonal regulation in vitro

Recent studies from our laboratory corroborated the suggested role of plasminogen activation in follicular rupture at ovulation, and its involvement in the activation process of collagenolysis in the follicle. In the present study, the molecular types and cellular source of plasminogen activator (PA) were examined. Explanted preovulatory follicles produced in vitro both urokinase type and tissue type (t-PA) activators. Upon gonadotropin stimulation a highly significant increase in t-PA, but not in urokinase type, was observed. Separation of the follicle into granulosa cells and residual tissue, mainly theca, revealed that both compartments produce both types of PA. The granulosa compartment was found to produce 80-90% of the total follicular PA activity. Gonadotropins stimulated predominantly t-PA. Most of the gonadotropin-enhanced PA activity produced by granulosa cells was secreted into the culture medium, whereas that from thecal origin remained in the tissue. Likewise, in whole follicles only about 10% of PA was secreted into the medium. Gonadotropin-induced PA activity in vitro was reduced by inhibitors of steroidogenesis. This inhibition was overcome by the addition of estradiol-17 beta. The inhibition of steroidogenesis affected predominantly the t-PA type of PA. In conclusion, the granulosa cells contribute most of the follicular PA activity, and t-PA is predominantly enhanced by gonadotropin and estrogen. It seems, therefore, that t-PA is the activator involved in the processes leading to follicular rupture.

Arachidonic acid metabolism in human granulosa cells: evidence for cyclooxygenase and lipoxygenase activity in vitro

In view of the studies demonstrating the involvement of eicosanoids (prostaglandins and hydroxyperoxides, including leukotrienes) in ovulation in several mammalian species, we have examined the activity of the two enzyme systems, lipoxygenase and cyclooxygenase in human granulosa cells obtained from women undergoing in-vitro fertilization--embryo transfer. The activity of cyclooxygenase was assessed by radioimmunoassay of prostaglandin E and of 6-keto-prostaglandin F1 alpha, the conversion product of prostacyclin, accumulated in the culture medium of granulosa cells. Lipoxygenase activity was detected by the conversion of [14C]arachidonic acid into its products (hydroxyperoxides and leukotrienes) separated by reversed phase high-performance liquid chromatography. The results confirmed the activity of cyclooxygenase in human granulosa cells, production in vitro of prostaglandin E and prostacyclin and demonstrated the presence of active lipoxygenase enzymes. These results support the possible involvement of eicosanoids in ovulation of the human.

Changes in follicular steroidogenic enzymes following the preovulatory surge of gonadotropins and experimentally-induced atresia

Atresia that is induced experimentally and the preovulatory surge of gonadotropins stimulate similar changes in follicular steroidogenesis in the rat, i.e., both enhance production of progesterone and reduce production of androgen and 17 beta-estradiol. In this study, mature cycling rats were either stimulated with human chorionic gonadotropin (hCG) or atresia was induced by blocking the proestrous surge of gonadotropins through the use of pentobarbitone or hypophysectomy. Changes in activity of C17,20-lyase (lyase) and 20 alpha-hydroxysteroid dehydrogenase (20 alpha SDH) were estimated from homogenates of 10-15 Graafian follicles by evaluating conversion of precursors to products that were separated and quantified by high performance liquid chromatography (HPLC). Within 3 h of administration to proestrous rats, hCG reduced follicular lyase activity (pmole androstenedione produced per mg protein during 30 min incubation) from (mean +/- SEM) 221.3 +/- 24.2 to 120.2 +/- 30.4, and to 8.5 +/- 0.1 after 9 h. By contrast, 20 alpha SDH activity increased somewhat after hCG stimulation. Similar changes were observed after follicular atresia was induced, with hypophysectomy causing the most striking changes. Lyase was reduced to 60% within 6 h after the operation, and to 2% within 24 h. Activity of 20 alpha SDH was doubled within 6 h of hypophysectomy and remained high even 24 h later. Thus, in preovulatory rat follicles, luteinizing hormone (LH)/hCG reduces lyase activity and similar changes occur in such follicles undergoing atresia. There was no clear correlation between 20 alpha SDH and lyase activities; our results did not support the argument that 20 alpha SDH products regulate lyase following the ovulatory stimulus and atresia.(ABSTRACT TRUNCATED AT 250 WORDS)

The steroid C-17,20-lyase complex in isolated Graafian follicles: effects of human chorionic gonadotropin

Androstenedione synthesis was studied in isolated rat preovulatory follicles and compared with that of rat testicular tissue using [14C]progesterone together with 17 alpha-hydroxy-[3H]progesterone as substrates in the presence of NADH or NADPH as cofactors. The amount of androstenedione formed was measured by addition of carrier, reisolation, and crystallization to constant specific activity. The labeling patterns of androstenedione and 17 alpha-hydroxyprogesterone (17-OHP) confirmed that both tissues preferentially catalyzed the synthesis of androstenedione from progesterone rather than from 17-OHP. It appears, therefore, that free 17-OHP was not an obligatory intermediate in this reaction. When hCG (5 IU) was administered sc and the follicles were isolated 3 h later, androstenedione synthesis was inhibited whether NADH or NADPH was added as cofactors. By contrast, 17-hydroxylase activity was inhibited only with NADH as cofactor. Hence, the gonadotropin, with NADH as cofactor, specifically reduced progesterone incorporation into androstenedione without affecting incorporation of 17-OHP. Thus, hCG appears to affect androstenedione production from progesterone at two different sites of the lyase complex.

Oocyte maturation inhibitor

The preovulatory surge of gonadotropins induces within the mature Graafian follicle a series of changes culminating in the release of a fertilizable ovum. These include resumption of the meiotic division, a process held in abeyance from a short time after birth, and the progression of the oocyte from the dictyate stage to the metaphase of the second meiotic division. Here the role of a follicular factor, oocyte maturation inhibitor (OMI), in preventing resumption of meiosis by ova of antral follicles prior to the surge of gonadotropins has been reviewed. The suggested involvement of OMI in regulation of meiosis is based on the following observations: (1) fully grown mammalian oocytes explanted from their follicles undergo meiotic maturation spontaneously, whereas follicle-enclosed ova remain immature until stimulated; (2) co-culture of oocytes isolated from their follicles with follicular granulosa cells, granulosa cell extract and follicular fluid inhibits the spontaneous maturation; (3) the inhibition of oocyte maturation by OMI is reversible and in several of the models employed can be removed by the addition of the physiological trigger of meiosis, luteinizing hormone (LH). The current state of OMI characterization and purification has been described and the involvement of additional factors, such as cyclic AMP, in the regulation of meiosis discussed.

Ovarian lipoxygenase activity and its regulation by gonadotropin in the rat

In our previous study a dose-dependent blockage of follicular rupture at ovulation by inhibitors of lipoxygenase was demonstrated. Here the presence of 5-lipoxygenase activity in the whole ovary and in the Graafian follicle is estimated by a chemiluminescence assay using unlabeled arachidonic acid as substrate in the presence of luminol and by conversion of 14C-arachidonic acid into lipoxygenase products as separated by HPLC. Both approaches demonstrated lipoxygenase activity in whole ovarian homogenates and in homogenates of preovulatory Graafian follicles. Furthermore, within 6 h after stimulation in vivo with hCG, lipoxygenase activity was increased by 2-fold in the whole ovarian homogenate and by 5-fold in the follicular homogenate. These results confirm the presence of lipoxygenase in rat ovaries, and its stimulation by gonadotropin and thus corroborate the suggested involvement of lipoxygenase products in follicular rupture at ovulation.

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.

The involvement of collagenolysis in ovulation in the rat

Collagenolytic activity in ovarian follicles was previously demonstrated by using synthetic peptides and reconstituted collagen fibers. However, attempts to demonstrate degradation of ovarian collagen and to correlate collagenase activity with ovulation were not successful. By administration of L-(5-3H) proline, we have labeled ovarian and follicular collagen and followed collagenolytic activity by separation of 3H-hydroxyproline (3H-Hyp) from acid hydrolyzates of ovarian tissue by HPLC. The level of ovarian and follicular 3H-Hyp decreased by about 40% on the afternoon of proestrus or after exogenous stimulation of ovulation by human CG (hCG), and this decrease was abolished by blocking the surge of gonadotropins with Nembutal. To verify that the observed reduction in 3H-Hyp was due to the action of a typical collagenase, the collagenous fraction was prepared from ovarian tissue and from preovulatory follicles before and after the ovulatory stimulus. The extracts were treated with trypsin (25 min, 25 C, 0.01 mg/ml) plasmin and p-amino-phenyl-mercuric acetate to fully activate the collagenase extracted along with collagen. Both, enzymatic and chemical activation of collagenase in vitro resulted in degradation of collagen. This degradation could be inhibited by cysteine and EDTA; both are classic inhibitors of mammalian collagenases. The activity of ovarian collagenase increased within 3 h after hCG-stimulation, peaked at 5-fold 6 h after hCG, and declined afterwards. Administration of cysteine (0.001-0.01 mmol) into the bursal cavity of proestrous rats blocked ovulation and breakdown of ovarian collagen in a dose-dependent manner. Cysteine effectively inhibited ovulation even when injected 7 h after the hCG stimulus. Inhibitors of arachidonic acid metabolism prevent ovulation. Indomethacin (inhibitor of cyclooxygenase) and nordihydroguaiaretic acid (inhibitor of lipoxygenase) blocked ovulation and inhibited hCG-induced ovarian collagenolysis. Collectively, these results corroborate the essential role of collagenolysis in follicular rupture in mammals.

Regulation of the development of meiotic competence and of the resumption of oocyte maturation in the rat

The first meiotic maturation division of mammalian oocytes is initiated in the embryo or during the early postnatal period. However, when the germ cells reach the diplotene stage the meiotic process is arrested. Meiosis is normally kept in abeyance up to a short period prior to ovulation, when the process is resumed in preovulatory follicles. Resumption of meiosis is studied in mammalian oocytes mainly in two dissimilar in vitro models, isolated oocytes maturing spontaneously in culture and hormone-induced maturation of follicle-enclosed oocytes. A third approach, namely, co-culture of oocytes with follicular constituents was adopted in order to test the role of follicular components in the control of meiosis. Such studies demonstrated an inhibitory action of granulosa cells, granulosa-cell conditioned medium and of follicular fluid (FF1) upon the spontaneous maturation of co-cultured oocytes. By contrast, theca tissue was without effect on meiosis. Addition of luteinizing hormone (LH) to co-cultures of rat granulosa cells and rat oocytes induced resumption of meiosis, as it does in vivo or in vitro in follicle-enclosed oocytes. It is therefore suggested that within antral follicles meiosis is held in abeyance by a granulosa cell product, the inhibitor of oocyte maturation (OMI). Further studies led to the conclusion that OMI is not species specific, that its production by granulosa cells is enhanced by follicle stimulating hormone (FSH) and that its concentration in FF1 is dependent upon the development of the follicle and not the stage of the oestrous cycle. OMI appears to be a peptide of less than 2000 Da. Its action on the oocyte appears to be mediated, at least partially, by cumulus cells and is potentiated by cyclic AMP. Since OMI activity has been demonstrated only in antral follicles, we examined the development of the ability of rat oocytes to undergo spontaneous maturation during their growth phase in preantral follicles. We have found that the ability of rat oocytes to resume maturation ('meiotic competence') is acquired between days 20-26 post partum. By the use of hypophysectomy on day 15 of life and by treatment with hormones and inhibitors we demonstrated that the acquisition of meiotic competence is dependent upon FSH stimulation and that it is mediated, at least partially, by ovarian oestrogen production. The findings that oocytes from preantral follicles are meiotically incompetent suggests that the physiological role of follicular OMI is limited only to antral follicles i.e. when the oocytes acquire meiotic competence.(ABSTRACT TRUNCATED AT 400 WORDS)

Estradiol-17 beta reduces number of ovulations in adult rats: direct action on the ovary?

The specific role of estrogen and other steroids in folliculogenesis is unclear since both inhibitory and stimulatory effects have been described. We reported that atresia of the preovulatory follicle was induced when estradiol-17 beta (E2) or progesterone was administered peripherally in rhesus monkeys, presumably due to a direct effect at the ovarian level. The present study was designed to determine if a similar direct action of E2 and other steroids occurs in rats. Minicapsules of Silastic containing E2, progesterone or dihydrotestosterone in amounts of 12.5% to 100% mixed with cholesterol, were placed unilaterally under the ovarian bursa on the morning of metestrus in rats having 4-day cycles. At autopsy on the morning of estrus, the number of oocytes ovulated from treated and untreated contralateral ovaries was determined. Ovaries treated with E2 averaged 3.1 +/- 0.4 oocytes while untreated ovaries in the same animals averaged 6.4 +/- 0.4 oocytes (P less than 0.001 by paired t test, n = 20). Results were similar for all amounts of E2 used and serum levels of E2 were not elevated at autopsy by this local treatment. Cholesterol alone did not alter the number of oocytes. Results of similar experiments with progesterone and dihydrotesterone were less conclusive than for E2. In additional trials, ovaries were treated with E2 as above, and preovulatory follicles were explanted on the morning of proestrus to determine their steroidogenic capability in vitro. Follicles from treated ovaries released somewhat less E2 and progesterone into luteinizing hormone (LH)-free medium than follicles from untreated ovaries, but not when LH was added to the medium.(ABSTRACT TRUNCATED AT 250 WORDS)

Possible involvement of lipoxygenase products of arachidonic acid pathway in ovulation

The possible involvement of products of the lipoxygenase pathway of arachidonic acid cascade in ovulation was tested by intrabursal injection of nordihydroguaiaretic acid (NDGA); 5, 8, 11-eicosatriynoic acid (5, 8, 11-ETYA), 3 amino-1-(3 trifluromethyphenyl)-2-pyrazoline hydrochloride (BW755c) and (FPL 55712). All these drugs reduced the number of ova released from the treated ovaries in a dose-dependent manner, without affecting ovulation from contralateral ovaries. NDGA was most potent since it completely blocked ovulation from the treated ovaries in 17/38 rats receiving a dose higher than 0.15 mg/bursa. This effect of NDGA cannot be ascribed to its inhibition of ovarian PGE synthesis. Conversion of labeled arachidonic acid via the lipoxygenase pathway by preovulatory rat follicles was demonstrated by TLC chromatography. Collectively, these results suggest the involvement of products of lipoxygenase pathway of arachidonic acid in ovulation in the rat.