Developmental and hormonal regulation of cumulus expansion and secretion of cumulus expansion-enabling factor (CEEF) in goat follicles

The objective of this article was to study the developmental and hormonal regulation of cumulus expansion and secretion of cumulus expansion-enabling factor (CEEF) in goat follicles. M-199 medium was conditioned for 24 hr with cumulus-denuded oocytes (DOs), oocytectomized complexes (OOXs), or mural granulosa cells (MGCs) from goat follicles of different sizes. Mouse OOXs and eCG were added to culture drops of the conditioned medium and cumulus expansion was scored at 18 hr of culture to assess CEEF production. While mouse OOXs did not expand, goat OOXs underwent full cumulus expansion when cultured in nonconditioned eCG-supplemented M-199 medium. When cultured in nonconditioned medium containing 10% follicular fluid (FF) from goat medium (2-4 mm) and small (0.8-1.5 mm) follicles, 71-83% mouse OOXs expanded; but expansion rates decreased (P < 0.05) at either lower or higher FF concentrations. FF from large (5-6 mm) follicles did not support mouse OOX expansion at any concentrations. While medium conditioned with DOs from follicles of all the three sizes supported expansion of 80-90% mouse OOXs, medium conditioned with mature DOs had no effect. While cumulus cells from follicles of all the three sizes secreted CEEF in the absence of gonadotropins, MGCs from large follicles became gonadotropin dependent for CEEF production. Both FSH and LH stimulated CEEF production by large follicle MGCs, but FSH had a shorter half-life than LH to expand mouse OOXs. Few meiosis-incompetent goat oocytes from small follicles underwent cumulus expansion when cultured in medium conditioned with goat DOs or cocultured with goat COCs from medium follicles. It is concluded that (1) goat cumulus expansion is independent of the oocyte; (2) the limited CEEF activity in FF from large follicles was due mainly to the inability of MGCs in these follicles to secret the factor in absence or short supply of gonadotropins; (3) the cumulus expansion inability of the meiosis incompetent goat oocytes was due to the inability of their cumulus cells to respond to rather than to produce CEEF.     

Influence of FSH and hCG on the resumption of meiosis of bovine oocytes surrounded by cumulus cells connected to membrana granulosa

Cumulus oocyte complexes (COCs) and cumulus oocyte complexes connected to a piece of the membrane granulosa (COCGs) were isolated from bovine antral follicles with a diameter of 2 to 8 mm. After culture of COCGs without gonadotrophic hormones for 22 hr approximately 50% of the oocytes were still in the germinal vesicle (GV) stage Histology of the COCGs showed that the pieces of the membrana granulosa were free of thecal cells and parts of the basal membrane. This indicates that the membrana granulosa solely inhibits the progression of meiosis. To investigate the effect of gonadotropins on the resumption of meiosis of oocytes from small and medium sized antral follicles, COCs and COCGs were cultured with or without rec-hFSH or hCG. Addition of 0.05 IU rec-hFSH to the culture medium of COCGs resulted in germinal vesicle breakdown in 97.8% of the oocytes compared to 46% in the control group, and an increase of the diameter of the COCs (479 μm vs. 240 μm in the control group). Addition of 0.05 IU hCG to the culture medium had no effect on nuclear maturation (47.2% GV vs. 48.5% GV in the control group nor on cumulus expansion (246 μm vs. 240 μm in the control group). RT-PCR on cDNA of the follicular wall, cumulus cells, granulosa cells, COCs, and oocytes revealed that mRNA for FSH receptor was present in all cell types except oocytes. mRNA of the LH receptor was detected exclusively in thecal cells. Nucleotide sequence analysis and alignment of the cloned PCR products showed the presence of two isoforms of the FSH receptor mRNA and two isoforms of the LH receptor mRNA. It is concluded that, in vitro, resumption of meiosis of oocytes, originating from small and medium sized antral follicles and meiotically arrested by the membrana granulosa, is triggered by FSH and not by LH. This is supported by the fact that receptors for FSH, but not for LH, are transcribed in the cumulus and granulosa cells of these follicles. © 1996 Wiley-Liss, Inc.     

Meiotic state of bovine oocytes is regulated by interactions between cAMP,cumulus, and granulosa

Bovine oocytes are arrested at the prophase of first meiotic cell cycle. Meiosis resumes in oocytes of pre-ovulatory follicles upon LH surge. However, oocytes from secondary follicles spontaneously resume meiosis in the absence of hormones if removed from the follicle and cultured in vitro. The nature of meiotic arrestor in bovine follicles is poorly understood. In this study we investigated the role of cell-cell interactions between granulosa and cumulus cells and the oocyte in mediating maintenance of meiotic arrest by cAMP. We sorted oocytes as granulosa-cumulus oocyte complexes (GCOC) if surrounded with cumulus cells attached to a large granulosa investment or cumulus oocytes complexes (COC) if surrounded with cumulus cells only and investigated the role cAMP in maintenance of meiotic arrest in these oocytes under various conditions. In hormone- and serum-free medium both GCOC and COC enclosed oocytes resumed meiosis. When [cAMP](i) was elevated with addition of invasive adenylate cyclase (iAC) GCOC enclosed oocytes were maintained in the prophase with intact germinal vesicle (GV) while COC enclosed oocytes underwent GV breakdown (GVBD). iAC elevated [cAMP](i) in both types of oocytes to the same level. If oocytes were liberated from the cumulus and granulosa cells, they re-initiated meiosis in serum and hormone free medium, but remained in the GV stage if iAC was added to the medium. Untreated GCOC and COC enclosed oocytes extruded first polar body at the same frequency in hormone-supplemented media. GCOC and COC enclosed oocytes but not denuded oocytes (DO) cultured without somatic cells acquired developmental competence if cultured in hormone-containing medium. It is concluded that maintenance of meiotic arrest is regulated by the interplay of [cAMP](i), and cumulus and granulosa cells.     

Effects of follicular atresia and size on the developmental competence of bovine oocytes: a study using the well-in-drop culture system

The effect of granulosa cell (GC) apoptosis and follicle size on the competence of bovine oocytes were studied using a well-in-drop (WID) oocyte/embryo culture system, which allows identification of follicular origin. Hatching rates of blastocysts did not differ (P>0.05) between oocytes cultured in the WID system (13%) and those cultured in the conventional group system (16%). Hatching rates of blastocysts were higher (P<0.05) in early atretic (17%) than in non-atretic (8%) and late atretic follicles (10%) of the same size (4-8mm), and in 6-8mm (22%) than in 4-5mm follicles (15%) at the early atretic stage. More oocytes (P<0.05) from late atretic (17%) than from non-atreteic (7%) or early atretic follicles (9%) of the same size (4-8mm) were arrested at Grade 1 cumulus expansion (only cells in the peripheral two layers began to expand). Similarly, more oocytes from 2 to 3mm follicles (30%) than from 6 to 8mm follicles (21%) at the same (late) atretic stage had Grade 1 cumulus expansion (P<0.05). Hatching blastocyst percentages of oocytes with Grade 3 (all layers of the cumulus except corona radiate cells expanded) or Grade 4 (full) cumulus expansion were higher in early atretic (20%) than in non-atretic (13%) or late atretic follicles (12%). Hatching blastocyst percentages of oocytes from follicles at the early atretic stage increased as cumulus expanded from Grade 2 (9%) to Grade 4 (27%). Regardless of the degree of follicle atresia, 72-76% of the floating cells in the follicular fluid (FF) were undergoing apoptosis. The floating cell density in FF was highly (r=0.6-0.7) correlated with oocyte developmental potency. In conclusion, the WID culture system was as efficient as group culture and allowed identification of follicular origin. Furthermore, the developmental potential of oocytes was affected by GC apoptosis, follicle size and cumulus expansion, and the floating cell density in FF could be used as a simple and non-invasive marker of oocyte quality.     

Gonadotropin stimulation of steroidogenesis and cellular dispersion in cultured porcine cumuli oophori

The relationship between cellular dispersion and steroidogenesis was studied in culture using oocyte-cumulus complexes harvested from porcine follicles. The cells were cultured in modified TC 199 containing pig serum for one to two days. When oocyte-cumulus complexes were cultured in the absence of hormone the oocytes resumed meiosis, the cumulus cells grew out forming monolayers, and progesterone accumulation was low. Addition of ovine LH, purified human LH, or purified human FSH stimulated expansion of the cumulus mass as well as enhanced progesterone accumulation. Oocyte maturation was not affected by the hormones. In absence of hormone, oocyte-cumulus complexes obtained from large (6–12 mm) follicles showed increased cellular dispersion and higher progesterone accumulation as compared to complexes obtained from medium-sized (3–5 mm) follicles.     

Hamster oocyte maturation in vitro: Inhibition by follicular components

When prevulatory hamster follicles were cultured $\text{in vitro}$, the oocytes within them remained at the germinal vesicle stage. This maturation arrest was partly overcome by washing the follicles before cultivation or by the addition of LH to the medium. LH-reversible oocyte arrest was also induced in isolated oocytes by culturing them either with the cumulus oophorus or with hamster follicular fluid was not species-specific, inhibitory effect of follicular fluid was not species-specific, since an LH-reversible inhibition was also produced by follicular fluid of bovine origin. Evidence is presented indicating that the inhibition is due to a heat labile peptide with a molecular weight between 10 0 and 10,000. LH may induce oocyte maturation by acting on the oocyte so that it no longer responds to the inhibitor.     

Effects of bovine follicular fluid on maturation of bovine oocytes

Three experiments were conducted to determine the effects of follicular fluid and media on bovine oocyte maturation. Experiments 1 and 3 test the effects of follicular fluid obtained at different times after the LH surge on bovine oocyte maturation in vitro, while Experiment 2 was designed to compare TALP and Medium 199 as serum-free maturation media. Bovine follicular fluid (BFF) was obtained from preovulatory follicles either before (0 h BFF) or at 4, 8, 12 or 20 h after a GnRH-induced LH surge. Oocytes were obtained from follicles 1 to 6 mm in diameter from ovaries retrieved from a slaughterhouse. In Experiment 1, both 0 h and 4 h BFF inhibited resumption of meiosis, whereas BFF collected at 8, 12 and 20 h did not. When oocytes were cultured in media that contained equal portions of 0 and 8 h BFF, meiosis was not inhibited. In Experiment 2, Medium 199 supplemented with bovine serum albumin (BSA) was superior to Tyrode's medium with albumin, lactate and pyruvate for oocyte maturation. In Experiment 3, a higher percentage (P<0.05) of oocytes cultured for 18 h in 40% 20 h BFF in Medium 199 reached Metaphase-II (64%) than those cultured in 0 h BFF (41%) or control medium (39%). There was a transient meiotic arrest due to 0 h BFF as evidenced by the higher percentage of oocytes with germinal vesicles at 8 h of incubation (35% with 0 h vs 20% with 20 h; P<0.05). Furthermore, expansion of cumulus cells was induced in 8 and 20 h BFF, but not 0 h BFF.     

Effect of follicular cells,IGF-I and tyrosine kinase blockers on oocyte maturation

The aim of this study was to test the following hypotheses: (i) that oocyte maturation is controlled by surrounding follicular cells; (ii) that a meiosis-regulating factor of follicular origin is not species-specific; (iii) that one of the follicular regulators of oocyte maturation is IGF-I; and, (iv) that Cumulus oophorus and tyrosine kinase-dependent intracellular mechanisms do not mediate IGF-I action on oocytes. It was found that co-culture of cumulus-enclosed bovine oocytes with isolated bovine ovarian follicles or with isolated porcine ovarian follicles significantly increased the proportion of matured oocytes (at metaphase II of meiosis) after culture. Porcine oocytes without cumulus investments had lower maturation rates than cumulus-enclosed oocytes. Co-culture with isolated porcine ovarian follicles resulted in stimulation of maturation of both cumulus-free and cumulus-enclosed porcine oocytes. These observations suggest that follicular cells (whole follicles or Cumulus oophorus) support bovine and porcine oocyte maturation, and that follicular maturation-promoting factor is not species-specific. The release of significant amounts of IGF-I by cultured bovine and porcine isolated follicles and granulosa cells was demonstrated. Addition of IGF-I to culture medium at 10 or 100 (but not 1000) ng/ml stimulated meiotic maturation of both cumulus-enclosed and cumulus-free porcine oocytes. Neither of the tyrosine kinase blockers, genistein or lavendustin (100 ng/ml medium), changed the stimulating effect of IGF-I on porcine oocytes. The present data suggest that at least one of the follicular stimulators of oocyte nuclear maturation is IGF-I, and that its effect is probably not mediated by cumulus investment or by tyrosine kinase-dependent intracellular mechanisms.     

Developmental stage of the oocyte during antral follicle growth and cumulus investment determines in vitro embryo development of sow oocytes

The aim of the study was to determine the contribution of cumulus cells on the developmental competence of porcine oocytes during follicle growth. Oocytes from large (5-8mm) and small (2-3mm) follicles were cultured with or without follicle stimulating hormone (FSH), subsequently examined for nuclear stage and spindle morphology, or fertilized and cultured for embryo development, or analyzed for glutathione content. Additionally, the significance of cumulus investment, corona radiata cells, cumulus cell number and origin of cumulus cells for oocyte maturation were investigated. Small follicle oocytes cultured without FSH exhibited the highest incidence of spindle aberrations. Oocytes cultured without FSH exhibited reduced sperm penetration and blastocyst rates, and a higher proportion monospermic oocytes developed to the blastocyst stage when derived from large follicles. The glutathione content in oocytes increased during follicle growth and oocyte maturation, but no direct correlation between oocyte glutathione content and oocyte developmental capacity was observed. Oocytes with a bigger cumulus investment exhibited better embryo development. Oocytes with a single corona radiata cell layer (CROs) exhibited similar progression through meiosis to oocytes with more cumulus cell layers, but showed reduced embryo development. More blastocysts were observed when CROs were cultured with disconnected cumulus cells during IVM, but no blastocyst increase was observed when CROs were cocultured with a higher number of cumulus cells or with cumulus cells from large follicles. We conclude that increased developmental capacity of oocytes during follicle growth is intrinsic and whether cumulus cells originate from large or small follicles, their contribution to oocyte maturation remains unchanged. Further, cumulus investment can be used as a variable to predict oocyte developmental capacity.     

Assay for characterization of human follicular oocyte maturation inhibitor using Xenopus oocytes

Human follicular fluid from healthy mature Graafian follicles and from pathologic ovarian cyst fluid was found to be inhibitory to progesterone-induced meiotic maturation of oocytes from the South African clawed toad, Xenopus laevis. Human follicular fluid but not human serum, collected from the same individuals, demonstrated a linear dose-response inhibition on the maturation of oocytes in the Xenopus assay system. These findings indicate that the human follicular and cyst fluids contain oocyte maturation inhibitor (OMI). This human OMI was inactivated when subjected to a boiling water bath for 2 min. The OMI action was shown to be reversible in its inhibitory action. The fact that OMI can act directly on the oocyte was demonstrated by its inhibitory action on maturation in defolliculated oocytes. The findings demonstrate that the inhibitory action of human OMI is not species-specific. Xenopus oocytes provide a simple, readily available, year-round bioassay material for testing follicular oocyte maturation inhibitor.     

Extracellular and intracellular factors affecting nuclear and cytoplasmic maturation of porcine oocytes collected from different sizes of follicles

Nuclear and cytoplasmic maturation of porcine oocytes collected from different sizes of follicles were examined. Oocyte-cumulus complexes were collected from small (1-2 mm in diameter), medium (3-6 in diameter) and large (7-8 mm in diameter) follicles and cultured in a modified tissue culture medium 199 for 44 h. Nuclear maturation was evaluated after orcein staining, and cytoplasmic maturation was evaluated by intracellular glutathione (GSH) assay. Oocyte diameter, cumulus morphology, steroid hormones and glutathione in the follicular fluid (FF), were also examined. Significantly higher proportions of oocytes collected from large and medium follicles reached metaphase II than did oocytes from small follicles. Oocytes from small follicles also had a smaller size. GSH content was significantly higher (p < 0.05) in oocytes from large (14.24 +/- 2.1 pmol/oocyte) and medium (13.69 +/- 1.5 pmol/oocyte) follicles than in oocytes from small (9.44 +/- 1.28 pmol/oocyte) follicles just after collection. After maturation, oocytes from medium follicles had a higher GSH concentration than oocytes from small follicles. It was found that between 49.7 +/- 5.18 nM and 52.25 +/- 0.78 nM GSH was present in FF but there was no statistical difference between follicle sizes. A significantly higher (p < 0.001) estradiol level was present in FF from large follicles (299.2 +/- 68.6 ng/ml) than from medium (40.0 +/- 6.4 ng/ml) and small (41.2 +/- 3.7 ng/ml) follicles. Progesterone concentrations in FF from large (281.6 +/- 45.9 ng/ml) and medium (267.5 +/- 38.6 ng/ml) follicles were significantly higher than that (174.7 +/- 22.0 ng/ml) from small follicles. These results indicate that the oocyte's ability to accumulate intracellular GSH during maturation, and extracellular steroid hormones and cumulus cells, affect the competence of porcine oocytes to undergo nuclear and cytoplasmic maturation.     

Presence of Fas-Fas ligand system and bcl-2 gene products in cells and fluids from gonadotropin-stimulated human ovaries

Apoptosis, or programmed cell death, is an important mechanism for the regulation of embryonic development and tissue homeostasis. It is coordinated by a number of molecules including the Fas-Fas ligand (FasL) system and bcl-2. The purpose of this study was to characterize the expression of these molecules in human oocytes and cumulus cells from gonadotropin-stimulated human ovaries and to determine whether the presence of soluble Fas (sFas), soluble FasL, or interferon-gamma in follicular fluid (FF) correlated with apoptosis in cumulus cells, oocyte maturation, and embryo quality. Levels of sFas were significantly higher in FF containing immature oocytes compared with those containing atretic oocytes (P < 0.05; FF containing mature oocytes had highly variable levels of sFas. Levels of sFas in FF did not correlate with either fertilization, embryo quality resulting from fertilized oocytes, or apoptosis rate in cumulus cells. Fas was expressed in both unfertilized oocytes and cumulus cells, whereas FasL expression was not usually detected in these cell types. Messenger RNA for bcl-2 was detectable in both freshly isolated oocytes and cumulus cells but was not demonstrable following 24 h of culture that coincided with a significant increase of apoptosis in cumulus cells. Our results indicate that soluble forms of the Fas-FasL system are present in FF from gonadotropin-stimulated human ovaries and suggest that this system may play a role in preventing oocyte atresia during folliculogenesis but is probably not important for apoptotic events in cumulus cells and oocytes after fertilization failure. Apoptosis in this case may be facilitated by the downregulation of bcl-2. Further studies on the expression of these molecules in follicles containing atretic oocytes and immature oocytes are needed to confirm this new hypothesis.     

FSH-stimulated follicular secretions enhance oocyte maturation in pigs

Follicular secretions can support cytoplasmic maturation in vitro in the pig. The effects of follicular secretions stimulated in vitro by different combinations of gonadotropins and over different culture periods on cytoplasmic maturation of the pig oocyte were studied. In Experiment 1, follicular shells (including theca and mural granulosa cells) from 5 to 7-mm follicles were cultured in vitro under the stimulation of different combinations of gonadotropins for 48 h, and then the obtained conditioned media were used for oocyte maturation. Oocytes cultured in conditioned medium harvested after treatment of follicular shells with 2.5 mug/ml FSH (FSH-stimulated conditioned medium) yielded a higher percentage of male pronuclear formation than those matured in conditioned medium harvested after culture of follicular shells with a combination of hormones (2.5mug/ml FSH, 2.5 mug/ml LH and 20 ng/ml PRL, FSH-LH-PRL-stimulated conditioned medium; 54.1 vs 28.5%; P=0.001). Addition of the combination of FSH, LH and PRL during the period of oocyte maturation marginally improved male pronuclear formation rates (41.3 vs 55.6%; P=0.06). In Experment 2, follicular shells were cultured under the stimulation of FSH only. Conditioned media were harvested after the first 24 h and the second 24 h of culture. The rates of male pronuclear formation in oocytes matured in these 2 conditioned media did not differ (P=0.65), but were higher than those of oocytes matured in fresh control medium (P<0.03). It is concluded that factors secreted by follicular cells stimulated by FSH alone provide better support for full oocyte maturation in the pig than by combined FSH, LH and PRL treatment.     

Covalent transfer of heavy chains of inter-alpha-trypsin inhibitor family proteins to hyaluronan in in vivo and in vitro expanded porcine oocyte-cumulus complexes

Previous studies have shown that the heavy chains (HCs) of serum-derived inter-alpha-trypsin inhibitor (IalphaI) molecules become covalently linked to hyaluronan (HA) during in vivo mouse cumulus expansion and significantly contribute to cumulus matrix organization. Experiments with mice suggest that the incorporation of such proteins in cumulus matrix appears to be rather complex, involving LH/hCG-induced changes in blood-follicle barrier and functional cooperation between cumulus cells, granulosa cells, and oocyte within the follicle. We demonstrate here that HC-HA covalent complexes are formed during in vivo porcine cumulus expansion as well. Western blot analysis with IalphaI antibody revealed that follicular fluids from medium-sized follicles and those from large follicles unstimulated with hCG contain high levels of all forms of IalphaI family members present in pig serum. The same amount of HCs were covalently transferred from IalphaI molecules to HA when pig oocyte-cumulus complexes (OCCs) were stimulated in vitro with FSH in the presence of pig serum or follicular fluid from unstimulated or hCG-stimulated follicles. In addition, HC-HA coupling activity was stimulated in cumulus cells by FSH treatment also in the absence of oocyte. Collectively, these results indicate that IalphaI molecules can freely cross the blood follicle barrier and that follicular fluid collected at any stage of folliculogenesis can be successfully used instead of serum for improving OCC maturation. Finally, pig cumulus cells show an autonomous ability to promote the incorporation of IalphaI HCs in the cumulus matrix.     

The stage-dependent inhibitory effect of porcine follicular cells on the development of preantral follicles

The objective of this study was to examine the effects of follicular cells on the in vitro development of porcine preantral follicles. In Experiment 1, one preantral follicle alone (Trt 1) was cocultured with a follicle of the same size with oocytes (Trt 2) or without oocytes (Trt 3). Preantral follicles cultured alone in vitro for 12 days had greater follicle diameters (1017 +/- 96 microm versus 706 +/- 69 or 793 +/- 72 microm, P < 0.05), growth rates (201 +/- 0.3 versus 103 +/- 0.2 or 128 +/- 0.2, P < 0.05) and oocyte survival rates (73% versus 48, or 25%, P < 0.05) than other groups. The inhibitory effects of follicle cells on the growth of preantral follicles and oocyte survival rates were not enhanced by the addition of oocytectomized preantral follicles (Experiment 2). Follicles were cocultured with different sources of follicular cells in other experiments. Coculture with cumulus cells enhanced oocyte survival compared to the control (without coculture) and mural follicular cell groups (Experiment 3). The growth and survival rates of oocytes collected from the group of follicles cocultured with cumulus cells from large antral follicles (>3 mm) were greater (P < 0.05) than those from small antral follicles (<3 mm), or than the control group (without cumulus cells, experiment 4). No significant differences in the follicular diameters (674 +/- 30 microm versus 638 +/- 33 and 655 +/- 28 microm) and growth rate (105% versus 94 and 105%) were observed among the preantral follicles of the different treatments (P > 0.05). Taken together, coculture with the cells from large antral follicles (>3 mm) exerted a significant positive effect on oocyte survival. The growth and oocyte survival of preantral follicle cocultured with the same size of follicles (with or without oocyte) were inhibited. Growth and survival rates of preantral follicles and oocytes are improved by coculturing them with the cumulus cells derived from larger antral follicles.     

Preovulatory endocrinology and oocyte maturation in superovulated cattle

Preovulatory follicular and oocyte nuclear maturation was studied in donor cattle induced to superovulate with a PMSG- or FSH-prostaglandin regimen. Plasma concentrations of progesterone (P4) and luteinizing hormone (LH) and follicular fluid levels of progesterone and estradiol-17β were measured and related to the oocyte nuclear maturation stages. The oocyte donors could be divided into two distinct groups. Group I had entirely normal periovulatory P4 and LH concentrations, and the majority of follicles and oocytes followed a characteristic pattern, clearly time-related to the LH peak. Group II had deviating levels of P4 and/or LH in the pre- and periovulatory period, and a majority of their follicles and oocytes had disturbed maturation, such as abnormal P4:E2 ratio in follicles and prematurely activated or meiotically arrested oocytes. It is concluded that a certain proportion of superovulated cows and heifers develop abnormal follicular/oocyte maturation and constitute poor oocyte, and probably also embryo, donors.     

CNP/NPR2 signaling maintains oocyte meiotic arrest in early antral follicles and is suppressed by EGFR‐mediated signaling in preovulatory follicles

Oocyte meiosis is arrested at prophase I by factors secreted from surrounding somatic cells after oocytes acquire meiotic competence at an early antral stage, and meiosis resumes in preovulatory follicles as a result of the luteinizing hormone (LH) surge. Recently, signaling by C‐type natriuretic peptide (CNP) through its receptor, natriuretic peptide receptor 2 (NPR2), was found to be essential for meiotic arrest at the late antral stage. Whether or not CNP/NPR2 signaling maintains oocyte meiotic arrest in earlier follicular stages and how it is associated with meiotic resumption induced by the LH surge is unclear. In this study, we examined the expression of Nppc and Npr2, respectively encoding CNP and NPR2, in the ovaries of immature mice. Nppc and Npr2 mRNA were specifically expressed in the outer and inner granulosa cell layers, respectively, in early antral follicles. Histological analysis of mice with a mutation in Npr2 revealed precocious resumption of oocyte meiosis in early antral follicles. Ovaries of mice treated with excess human chorionic gonadotropin (hCG) exhibited markedly decreased Nppc mRNA levels in granulosa cells of preovulatory follicles. Moreover, we found that amphiregulin, a mediator of LH/hCG activity through epidermal growth factor receptor (EGFR), suppressed Nppc mRNA levels in cultured granulosa cells. These results suggest that CNP/NPR2 signaling is essential for oocyte meiotic arrest in early antral follicles and that activated LH/amphiregulin/EGFR signaling pathway suppresses this signal by downregulating Nppc expression. Mol. Reprod. Dev. 79: 795–802, 2012. © 2012 Wiley Periodicals, Inc.     

Quantitative inhibitory influence of porcine cumulus cells upon the maturation of pig and cattle oocytes in vitro

Porcine cumulus oocyte complexes (COCs) were cultured together in 10-microliters droplets of culture medium. When 10 COCs were cultured for 24 h, germinal vesicle breakdown (GVBD) occurred in 81% of them. When more COCs (20 or 40) were put into the same volume of medium the frequency of GVBD gradually decreased. This inhibition was not observed in denuded oocytes. The process of GVBD was adversely influenced when 10 COCs were cultured in cumulus-preconditioned medium. It is concluded that porcine cumulus cells produced a factor inhibiting GVBD. After removing the inhibitory block and extensive washing, GVBD of arrested oocytes was significantly accelerated. The addition of LH or heparin only partially overcame the inhibitory action. This factor produced by porcine cumulus cells negatively influenced maturation of bovine oocytes; however, a similar effect was not demonstrated in the mouse. Our results suggest that a high concentration of porcine cumulus cells exerts a quantitative inhibitory effect upon GVBD of porcine and cattle oocytes cultured in vitro.     

Development of the rat oocyte in vitro: inhibition and induction of maturation in the presence or absence of the cumulus oophorus

The effect in vitro of oocyte maturation inhibitors and the ability of preparations of luteinizing hormone to relieve the arrest induced by these substances was studied in preparations of cumulus-free (naked) rat oocytes, and compared to previously obtained results from oocytes enclosed by their cumulus cells. The development of both the cumulus-oocyte complex and naked oocyte is arrested in vitro by cyclic AMP derivatives or cyclic nucleotide phosphodiesterase inhibitors. While gonadotropins can overcome the effect of these substances in the cumulus oocyte complex, they have no effect on naked oocytes. Cholera enterotoxin, an irreversible activator of adenylate cyclase, maintains developmental arrest in cultured cumulus oocyte complexes but not in naked oocytes. Preparations of luteinizing hormone can partially overcome the effect of cholera enterotoxin in the complexes. Furthermore, the acceleration of oocyte maturation in vitro observed in the presence of gonadotropins, which is seen in cumulus oocyte complexes, can be mimicked by stripping the oocyte of its associated cumulus cells. The results of these and other studies suggest that: (1) the cytoplasmic levels of cyclic AMP in the isolated oocyte are high enough to maintain meiotic arrest if a phosphodiesterase inhibitor is present; (2) the oocyte contains an active phosphodiesterase; (3) the oolemma may lack the adenylate cyclase system and; (4) gonadotropins seem to affect the oocyte indirectly, via the cumulus cells, possibly by interrupting communication between the two cell types.