Intrafollicular control of oocyte maturation in the PIG

Summary The mammalian oocyte becomes arrested at the diplotene stage of the first meiotic division during prenatal or early postnatal life. It remains arrested in meiosis until shortly before ovulation when the surge of gonadotropin induces resumption and completion of meiosis to the metaphase II stage. When oocytes are harvested from medium-sized or large follicles of pig and other species and cultured, they resume meiosis spontaneously indicating that the follicles exert an inhibitory influence on meiosis. To analyze the control of meiosis by follicular components, culture of isolated pig oocytes in the presence of follicular cells or follicular fluid (FF1) has been used as a model in this laboratory. An oocyte maturation inhibitor (OMI) has been isolated and partially purified by ultrafiltration and gel chromatography of FF1 and shown to be a polypetide with a molecular weight in the order of 2000 daltons. Physiological characterization has shown that the effect of OMI in vitro is reversible and that it can be overcome by luteinizing hormone (LH). The action of OMI requires the presence of cumulus cells surrounding the oocyte since it was found that denuded oocytes, stripped of cumulus cells, do not respond to OMI. Furthermore, when cumulus-enclosed oocytes were cultured, OMI inhibited the differentiation of the cumulus cells in terms of morphology and progesterone secretion in a dose-related manner. The inhibition of cumulus differentiation by OMI was reversible and could be overcome by LH. The results indicate that the effect of partially purified OMI upon meiosis may be mediated by the cumulus cells. Presented in the formal symposium on Sexual Differentiation in Vitro and in Vivo at the 29th Annual Meeting of the Tissue Culture Association, Denver, Colorado, June 4–8, 1978. This study was supported by Grants 760–0530 from the Ford Foundation (to C.P.C.), and Grant B78-14F-5158-01 from the Swedish Medical Research Council (to T.H.).     

A follicular fluid component prevents gonadotropin reversal of cyclic adenosine monophosphate-dependent meiotic arrest in murine oocytes

The effects of the putative maturation inhibitor in porcine follicular fluid on gonadotropinstimulated reversal of cyclic adenosine monophosphate (cAMP)-maintained meiotic arrest in mouse oocytes in vitro were assessed in this study. When cumulus cell-enclosed oocytes were cultured in a suboptimal inhibitory concentration of dibutyryl cAMP (dbcAMP), the effect of follicle-stimulating hormone (FSH) on oocyte maturation was initially inhibitory at 3 hr, but stimulatory at 6 hr. Supplementation of the medium with an ultrafiltrate of porcine follicuiar fluid (PM10-filtrate) completely suppressed FSH-promoted reversal of inhibition at 6 hr. Charcoal extraction eliminated this effect of the PM10-filtrate. FSH reversed the inhibition of maturation of cumulus cell-enclosed oocytes maintained by a high concentration of dbcAMP and suboptimal concentrations of the phosphodiesterase inhibitor, 3-isobutyl-1-methyl xanthine (IBMX), during a 21–22-hr culture period. However, the effect of a completely inhibitory concentration of IBMX was not reversed by gonadotropin. A component of serum was also found to inhibit FSH reversal of dbcAMP-maintained meiotic arrest, and this activity was removed by charcoal extraction. In addition, when oocytes were cultured in medium containing a suboptimal concentration of dbcAMP plus a low molecular weight fraction (< 1,000) of porcine follicular fluid, porcine serum, or fetal bovine serum, a synergistic inhibition of maturation was observed. Experiments with highly purified gonadotropins revealed that reversal of dbcAMP-maintained meiotic arrest occurred only in response to FSH; neither highly purified luteinizing hormone nor human chorionic gonadotropin could mimic this action of FSH. Also, this effect was mediated by the cumulus cells, since FSH could not reverse dbcAMP-maintained meiotic arrest in denuded oocytes. Furthermore, elevating cAMP levels in denuded oocytes augmented, rather than reversed, the inhibitory action of dbcAMP on oocyte maturation. These data therefore suggest that dbcAMP- or IBMX-maintained meiotic arrest in vitro is reversed by an FSH-stimulated, cAMP-dependent process mediated by the cumulus cells and demonstrate that a factor present both in follicular fluid and serum prevents this action of the gonadotropin.     

Oocyte maturation inhibitor (OMI) activity in protein granulosa cells

To determine the origin of oocyte maturation inhibitor (OMI), cumulus-enclosed porcine oocytes from medium follicles were cultured for two days in Medium 199 alone, the low molecular weight (< 2,000 daltons) fraction of porcine follicular fluid (pFFL), or extracts of granulosa cells from small (1–2 mm), medium (3–5 mm), and large (6–12mm) antral follicles. Additionally, the cumulus-oocyte complexes were grown in the presence of the low molecular weight fraction of “conditioned” medium from suspension cultures of medium follicle granulosa cells. The percent maturation in cultures with pFFL was significantly (P < .001) less than control cultures. Similarly, addition of the granulosa cell extracts at a 1/20 dilution resulted in a significant reduction in the percent oocyte maturation as compared with controls. The percent maturation after addition of conditioned medium was similarly reduced (P < .001). These results suggest that the granulosa cells probably synthesize and secrete OMI which inhibits oocyte maturation in vitro. Additionally, it appears that the content of OMI in the granulosa cells decreases as the follicle matures.     

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.     

Influence of hormones on the inhibitory activity of oocyte maturation present in conditioned media of porcine granulosa cells

This study examines the influence of follicular maturation as well as the role of various hormones upon the secretion of an oocyte maturation inhibitor (OMI) from porcine granulosa cells incubated in vitro. The results demonstrate that the OMI substance, secreted into the media by granulosa cells, is present in a low molecular-weight fraction (< 10,000 daltons) similar to that found in follicular fluid of porcine antral follicles. Also, as follicular development progresses, the granulosa cells lose their ability to secrete OMI. More importantly, hormones appear to regulate OMI secretion: FSH stimulates OMI secretion and androgens inhibit OMI secretion. These data provide evidence for the proposal of the following hypothesis concerning hormonal regulation of oocyte, meiosis by OMI in the porcine follicle: Whether the oocyte resumes meiosis, either during atresia or ovulation, is dependent upon the proper milieu of gonadotropins, cyclic-AMP, and steroids within the microenvironment of the follicular compartment. The cellular interactions of these hormones, particularly FSH and androgens, control the amount of OMI (and possibly other intrafollicular factors) secreted in the follicle, which may be involved in either maintaining the immature state or permitting meiotic maturation.     

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.     

Co-operation of Gsalpha and Gbetagamma in maintaining G2 arrest in Xenopus oocytes

Progesterone-induced oocyte maturation is thought to involve the inhibition of an oocyte adenylyl cyclase and reduction of intracellular cAMP. Our previous studies demonstrated that injection of inhibitors of G protein betagamma complex induces hormone-independent oocyte maturation. In contrast, over-expression of Xenopus Gbeta1 (xGbeta1), alone or together with bovine Ggamma2, elevates oocyte cAMP and inhibits progesterone-induced oocyte maturation. To further investigate the mechanism of Gbetagamma-induced oocyte maturation, we generated a mutant xGbeta1, substituting Asp-228 for Gly (D228G). An equivalent mutation in the mammalian Gbeta1 results in the loss of its ability to activate adenylyl cyclases. Indeed, co-injection of xGbeta1D228G with Ggamma2 failed to increase oocyte cAMP or inhibit progesterone-induced oocyte maturation. To directly demonstrate that oocytes contained a Gbetagamma-regulated adenylyl cyclase, we analyzed cAMP formation in vitro by using oocyte membrane preparations. Purified brain Gbetagamma complexes significantly activated membrane-bound adenylyl cyclase activities. Multiple adenylyl cyclase isoforms were identified in frog oocytes by PCR using degenerate primers corresponding to highly conserved catalytic amino acid sequences. Among these we identified a partial Xenopus adenylyl cyclase 7 (xAC7) that was 65% identical in amino acid sequence to human AC7. A dominant-negative mutant of xAC7 induced hormone-independent oocyte maturation and accelerated progesterone-induced oocyte maturation. Theses findings suggest that xAC7 is a major component of the G2 arrest mechanism in Xenopus oocytes.     

Stimulatory and Inhibitory Effects of Human Follicular Fluid on Amphibian Oocyte Maturation and Ovulation hi vitro

Follicular fluid was collected from individual human ovarian follicles and its effects, alone or in combination with frog pituitary homogenate (FPH), on oocyte maturation and ovulation were assessed following incubation with amphibian ovarian follicles in vitro. Oocyte maturation, with little or no concomitant ovulation, was induced by variable amounts of follicular fluid. Some of the individual follicular fluid samples were very active in inducing oocyte maturation, whereas others were inactive. Frog pituitary homogenates exhibited biologic activity (induced oocyte maturation and ovulation) when incubated in the presence of most follicular fluid samples. However, follicular fluid samples from two individuals inhibited ovulation but not maturation in FPH-treated follicles. These results demonstrate that amphibian follicles remain viable and undergo a number of physiologic changes in the presence of unfractionated human follicular fluid. Under appropriate conditions both stimulatory and inhibitory effects of follicular fluid were observed. These data suggest that amphibian ovarian follicles may provide a simple and independent means for detecting and assaying a number of biologic activities present in follicular fluid obtained from single human and other mammalian ovarian follicles. Such results may provide the basis for dissociating endocrine and cellular interactions which occur during normal and abnormal follicular differentiation.     

绵羊卵泡液和次黄嘌呤对卵母细胞体外减数分裂的影响

目的　利用在培养液中添加绵羊卵泡液和次黄嘌呤 ,抑制卵母细胞GVBD发生 ,延长转录活性 ,从而使卵母细胞真正成熟 ,提高胚胎质量及生产效率。方法　利用体外成熟技术对有屠宰采集的绵羊卵母细胞进行培养 ,培养液中添加卵泡液及次黄嘌呤 ,检查成熟效果。结果　将卵母细胞培养在 5 0 %和 10 0 %的卵泡液中 ,2 4h后处于GV期的卵母细胞分别为 19% (8 4 2 )和 33 3% (13 39)。在含有 4mmol L次黄嘌呤的培养液中 ,2 4h后有2 1 6 % (16 74 )的卵母细胞处GV期 ,而对照组中只有 6 % (3 5 0 ) ,经过次黄嘌呤处理的卵母细胞多数都停滞于PⅠ期(44 6 % ,33 74 )。在 4mmol L次黄嘌呤培养液中添加FSH并未使受到抑制的卵母细胞诱导成熟。结论　卵泡液和次黄嘌呤只能在有限的程度上抑制减数分裂的重新启动 ,并对减数分裂的全过程都有影响 ,这种影响程度与抑制因子的浓度相关 ,存在明显的剂量效应。     

Response of large oocytes of Xenopus laevis to progesterone in vitro in relation to oocyte size and time after previous HCG-induced ovulation.

The injection of Xenopus laevis females with human chorionic gonadotropin (HCG) leads to ovulation (and maturation) of oocytes whose diameters are 1.2 mm or larger. However, when Xenopus oocytes are removed from their follicular investments by manual dissection and exposed to the steroid, progesterone, in vitro, they exhibit maturation down to about 0.90 mm in diameter with the majority larger than 1.0 mm showing a positive response. Within each female the larger of the oocytes undergo maturation earlier than smaller ones.The response of oocytes also was shown to depend on the length of time since females were last stimulated to ovulate. Similar-sized oocytes from recently ovulated (stimulated) females matured much faster than those of untreated, unstimulated females. Indeed, even the smaller oocytes from stimulated females often matured before the largest oocytes of females without previous HCG injection.The experiments demonstrate that the physiological state of an oocyte cannot be accurately deduced solely from its size nor response to gonadotropins; unresponsiveness presumably being due to inability of follicular elements to respond to the trophic hormones or transfer the stimulus to the oocyte via the appropriate steroid.     

In vitro inhibition of oocyte and follicular maturation and spawning in starfish (Asterias forbesi) by 2-4-dinitrophenol

The in vitro effects of 2-4-dinitrophenol (DNP) on spawning and follicular and oocyte maturation in starfish ovaries and its various cellular components were investigated. Spawning and oocyte and follicular maturation induced by starfish gonadotropin radial nerve factor (RNF) in isolated ovarian fragments were all inhibited by appropriate doses of DNP. DNP inhibits processes which occur shortly after addition of the gonadotropin; in ovarian fragments insensitivity to DNP inhibition occurred shortly after addition of RNF but prior to initiation of spawning. Spontaneous follicular and oocyte maturation which occurred following release of ovarian follicles into sea water was prevented by DNP. In non-spontaneously maturing follicles released from the ovary, DNP inhibited both follicle and oocyte maturation induced by the secondary stimulator of spawning and maturation, 1-methyladenine (1-MA). DNP also inhibited 1-MA induced meiotic maturation in isolated immature oocytes incubated in the absence of follicle cells. Inhibition of oocyte maturation was not associated with inhibition of 3H-1-MA incorporation by isolated oocytes. Immature oocytes incubated in the presence of DNP underwent maturation following washing and subsequent exposure to 1-MA. Immature oocytes initially exposed to both 1-MA and DNP, however, showed decreased maturation responsiveness following washing and re-exposure to 1-MA. The results suggest that the inhibitory effects of DNP on spawning and oocyte maturation are the result of direct effects on the oocytes and possibly other cells and tissues within the ovary.     

Regulation of Xenopus oocyte meiosis arrest by G protein betagamma subunits

BACKGROUND: Progesterone induces the resumption of meiosis (maturation) in Xenopus oocytes through a nongenomic mechanism involving inhibition of an oocyte adenylyl cyclase and reduction of intracellular cAMP. However, progesterone action in Xenopus oocytes is not blocked by pertussis toxin, and this finding indicates that the inhibition of the oocyte adenylyl cyclase is not mediated by the alpha subunits of classical G(i)-type G proteins. RESULTS: To investigate the possibility that G protein betagamma subunits, rather than alpha subunits, play a key role in regulating oocyte maturation, we have employed two structurally distinct G protein betagamma scavengers (G(t)alpha and betaARK-C(CAAX)) to sequester free Gbetagamma dimers. We demonstrated that the injection of mRNA encoding either of these Gbetagamma scavengers induced oocyte maturation. The Gbetagamma scavengers bound an endogenous, membrane-associated Gbeta subunit, indistinguishable from Xenopus Gbeta1 derived from mRNA injection. The injection of Xenopus Gbeta1 mRNA, together with bovine Ggamma2 mRNA, elevated oocyte cAMP levels and inhibited progesterone-induced oocyte maturation. CONCLUSION: An endogenous G protein betagamma dimer, likely including Xenopus Gbeta1, is responsible for maintaining oocyte meiosis arrest. Resumption of meiosis is induced by Gbetagamma scavengers in vitro or, naturally, by progesterone via a mechanism that suppresses the release of Gbetagamma.     

Maintenance of meiotic arrest and developmental potential of porcine oocytes after parthenogenetic activation and somatic cell nuclear transfer

Several studies report that meiotic maturation of porcine oocytes can be reversibly preserved. The present study examined how long meiotic maturation can be suppressed. The first experiment determined the preservation medium suitable for reversibly suppressing meiotic maturation of porcine oocytes. The second experiment examined the in vitro developmental potential of oocytes maintained in meiotic arrest after parthenogenetic activation and nuclear transfer of somatic cells. Preservation of cumulus-oocyte complexes with NCSU-37 medium containing 10% follicular fluid, 1 mM dibutyryl cyclic AMP, and follicular shell pieces for 24-96 h at 39 degrees C did not affect oocyte maturation compared with controls (94-98% vs. 98%). The potential of parthenogenetically activated and nuclear-transferred oocytes maintained in meiotic arrest for 24-48 h to develop into blastocysts was not significantly different from that of controls (20-25% vs. 18% and 8-11% vs. 9%, respectively). The present study demonstrated that meiotic maturation of porcine oocytes can be suppressed after preservation for 48 h at 39 degrees C without decreasing oocyte maturation competence or the ability of oocytes to develop to at least the blastocyst stage.     

Neutral sphingomyelinase-induced ceramide triggers germinal vesicle breakdown and oxidant-dependent apoptosis in Xenopus laevis oocytes

Ceramide regulates many cellular processes, including cell growth, differentiation, and apoptosis. Although the effects of exogenous bacterial neutral sphingomyelinase (SMase) in Xenopus laevis oocytes have been investigated, its microinjection into oocytes has not been reported previously. Thus, we compared the incubation versus microinjection of the neutral Bacillus cereus sphingomyelinase (bSMase) to examine whether the topology of ceramide generation determines its effects on the fate of oocytes. In agreement with previous findings, incubation of mature stage VI oocytes with bSMase increased ceramide levels in oocyte extracts over time, causing the germinal vesicle breakdown indicative of maturation, without evidence of cytotoxicity. In contrast, bSMase microinjection, which increased ceramide levels in a time- and dose-dependent manner, resulted in oocyte apoptosis characterized by reactive oxygen species (ROS) generation, reduced glutathione (GSH) depletion in cytosol and mitochondria, release of cytochrome c and Smac/Diablo from mitochondria, and caspase-3 activation. Microinjection of acidic SMase from human placenta recapitulated the apoptotic effects of bSMase microinjection. Preincubation of oocytes with GSH-ethyl ester before bSMase microinjection prevented ROS generation and mitochondrial downstream events, thus protecting oocytes from bSMase-induced death. These findings show a divergent action of bSMase-induced ceramide on oocyte maturation or apoptosis depending on the intracellular site where ceramide is generated.     

The effect of hypoxanthine on mouse oocyte growth and development in vitro: maintenance of meiotic arrest and gonadotropin-induced oocyte maturation

The concentration of hypoxanthine in mouse follicular fluid has been estimated to be 2-4 mM, and although this concentration maintains meiotic arrest in fully grown mouse oocytes in vitro, oocyte maturation in vivo is not induced by a decrease in the concentration of this purine in follicular fluid (J. J. Eppig, P. F. Ward-Bailey, and D. L. Coleman, Biol. Reprod. 33, 1041-1049, 1985). In the present study, the effect of 2 mM hypoxanthine on oocyte growth and development in vitro was assessed and the ability of gonadotropins to stimulate oocyte maturation in the continued presence of hypoxanthine was determined. Oocyte-granulosa cell complexes were isolated from 10- to 11-day-old mice and cultured in the presence or absence of 2 mM hypoxanthine. Oocytes from 10- to 11-day-old mice are in mid-growth phase and, without further development, are incompetent of undergoing meiotic maturation. During a 12-day culture period the granulosa cell-enclosed oocytes approximately doubled in size and, regardless of the presence or absence of hypoxanthine, 50-70% developed competence to undergo germinal vesicle breakdown (GVBD). Hypoxanthine promoted the continued association of oocytes with their companion granulosa cells during the 12-day culture period, and therefore had a beneficial effect on oocyte development. Most of the oocytes that acquired GVBD competence in the absence of hypoxanthine underwent spontaneous GVBD. In contrast, 95% of the GVBD-competent oocytes were maintained in meiotic arrest by hypoxanthine. Following withdrawal of the hypoxanthine after the 12-day culture, 75% of the GVBD-competent oocytes underwent GVBD. These results show that hypoxanthine, and/or its metabolites, maintains meiotic arrest in oocytes that grow and acquire GVBD competence in vitro. Follicle-stimulating hormone (FSH), but not luteinizing hormone or human chorionic gonadotropin, induced oocyte GVBD in the continued presence of hypoxanthine. FSH stimulated oocyte maturation at a significantly (P less than 0.01) higher frequency than coculture of the granulosa cell-denuded oocytes with granulosa cells in the continued presence of hypoxanthine. FSH did not induce the maturation of denuded oocytes cocultured with granulosa cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

In vitro Inhibition of Oocyte and Follicular Maturation and Spawning in Starfish (Asterias forbesi) by 2-4-Dinitrophenol

The in vitro effects of 2-4-dinitrophenol (DNP) on spawning and follicular and oocyte maturation in starfish ovaries and its various cellular components were investigated. Spawning and oocyte and follicular maturation induced by starfish gonadotropin radial nerve factor (RNF) in isolated ovarian fragments were all inhibited by appropriate doses of DNP. DNP inhibits processes which occur shortly after addition of the gonadotropin; in ovarian fragments insensitivity to DNP inhibition occurred shortly after addition of RNF but prior to initiation of spawning. Spontaneous follicular and oocyte maturation which occurred following release of ovarian follicles into sea water was prevented by DNP. In non-spontaneously maturing follicles released from the ovary, DNP inhibited both follicle and oocyte maturation induced by the secondary stimulator of spawning and maturation, 1-methyladenine (1-MA). DNP also inhibited 1-MA induced meiotic maturation in isolated immature oocytes incubated in the absence of follicle cells. Inhibition of oocyte maturation was not associated with inhibition of ³H-1-MA incorporation by isolated oocytes. Immature oocytes incubated in the presence of DNP underwent maturation following washing and subsequent exposure to 1-MA. Immature oocytes initially exposed to both 1-MA and DNP, however, showed decreased maturation responsiveness following washing and re-exposure to 1-MA. The results suggest that the inhibitory effects of DNP on spawning and oocyte maturation are the result of direct effects on the oocytes and possibly other cells and tissues within the ovary.     

Initiation of meiotic maturation in Xenopus laevis oocytes by the combination of divalent cations and ionophore A23187.

Meiotic maturation was induced in Xenopus laevis oocytes when the external Ca++ or Mg++ ion concentration was raised above 5 mM in the presence of the ionophore. Ionophore-divalent cation-induced maturation appears to be due to the stimulation of the oocyte itself. Cytoplasm of responding oocytes induced maturation when microinjected into ovarian oocytes. Cycloheximid, an inhibitor of progesterone-induced maturation, inhibited the maturational response induced by the ionophore and divalent cations. Ethidium bromide, an inhibitor of the follicular response to human chorionic gonadotropin, had no effect. The possible roles that Ca++ and Mg++ may play in the initiation of maturation are discussed.     

The effects of follicular fluid on in vitro maturation, oocyte fertilization and the development of bovine embryos

We determined the effects of follicular fluid in the maturation medium on bovine oocyte maturation, fertilization and subsequent development, as well as on the number of cells in blastocysts following culture. Fluid and oocytes from bovine follicles less than 5 mm in diameter were collected from the ovaries of slaughtered cows. For the maturation medium, follicular fluid at concentrations of 10, 30 or 60% (v/v) was added to Medium 199 with Earle's salts supplemented with 0.1 microg/ml estradiol-17 beta (E(2), Experiment 1) or 0.1 microg/ml E2 and 100 IU/ml hCG (Experiment 2). The control medium contained polyvinylpyrrolidone (PVP; 3 mg/ml) instead of follicular fluid. After maturation for 24 h, oocytes were fertilized in vitro with bull frozen-thawed spermatozoa and cultured on a monolayer of granulosa cells for 9 d. There were no differences in maturation or fertilization rates of oocytes. In Experiment 1, maturation medium containing 10% follicular fluid did not affect the developmental rate of the oocytes to > 2-cell, 8 to 16-cell, blastocyst and hatched blastocyst stage embryos, respectively; whereas 60% decreased embryonic development (P < 0.05) compared with the control. Blastocysts and hatched blastocysts developed from fertilized oocytes which had been matured in medium containing 10 and 30% follicular fluid/E(2) had more cells than the controls (P < 0.01). In Experiment 2, maturation medium containing 10 or 30% follicular fluid did not affect the development fertilized oocytes to the blastocyst stage compared with the control, but decreased at 60% (P < 0.01). There were no differences in the number of cells from Day 9 blastocysts and hatched blastocysts from fertilized oocytes matured in maturation medium containing follicular fluid and E(2) + hCG. The results of these experiments suggest that the addition of bovine follicular fluid to the maturation medium enhances the cell numbers in blastocysts from bovine follicular oocytes matured in vitro.     

The nuclei of follicular cells do not control oocyte maturation in amphibians induced by gonadotropic hormones in vitro]

The inhibitory effect of actinomycin D (5 micrograms/ml) on maturation of the follicle-enclosed oocytes of Rana temporaria and Xenopus laevis induced in vitro by pituitary suspension and human chorionic gonadotropin, respectively, is not observed at low concentrations of the hormones. These data suggest that nuclei of the follicle cells are not involved in the control of the pituitary-dependent oocyte maturation in amphibians.     

Relationship among the status of the human oocyte, the 17 beta-estradiol concentration in the antral fluid and the follicular size

We studied the relationship among the status of the human oocytes, the E2 concentration in the antral fluid and the follicular size in the different phases of the menstrual cycle, in order to determine the microenvironment of the follicles with healthy or degenerative oocytes in the human ovary. In the follicular phase of the menstrual cycle, follicles which contained a healthy but not degenerative oocyte had a significantly higher level of 17 beta-estradiol (E2). In the late follicular phase, the larger follicles (greater than or equal to 13 mm, in diameter) had only health oocytes. It seems that the follicle containing a degenerative oocyte does not develop physiologically until maturation of the preovulatory follicle. In the luteal phase, there were no relationships among the status of the oocyte, E2 concentration in the antral fluid and the follicular size. However, the E2 levels of the antral follicles with healthy oocytes in an ovary with corpus luteum were significantly lower than those in the contralateral ovary. The results suggest that the corpus luteum may exert an influence on the adjacent follicles.