Induction of maturation in cumulus cell-enclosed mouse oocytes by follicle-stimulating hormone and epidermal growth factor: evidence for a positive stimulus of somatic cell origin

The efficacy of follicle-stimulating hormone (FSH), epidermal growth factor (EGF), and dibutyryl cGMP (dbcGMP) as inducers of germinal vesicle breakdown (GVBD) in cumulus cell-enclosed mouse oocytes was examined when meiotic arrest was maintained in vitro with purines, dibutyryl cAMP (dbcAMP), or the phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine (IBMX). When FSH was added to hypoxanthine (HX)-containing medium, the effect on oocyte maturation was at first inhibitory and later stimulatory. EGF stimulated GVBD at all time points tested. FSH and EGF also induced GVBD when oocytes were arrested with dbcAMP, IBMX, or guanosine. Dibutyryl cGMP stimulated GVBD when meiotic arrest was maintained with HX, but not when oocytes were meiotically arrested with guanosine, and was inhibitory in dbcAMP-supplemented medium. FSH and dbcGMP produced a transient delay of oocyte maturation in control medium, but the FSH effect was much more pronounced. EGF had no effect on maturation kinetics. The actions of FSH and EGF required the presence of cumulus cells. Both agents significantly stimulated cAMP production in oocyte-cumulus cell complexes. A brief exposure of complexes to a high concentration of dbcAMP induced GVBD, suggesting that FSH and EGF may act via a cAMP-dependent process. The frequency of FSH- and EGF-induced GVBD in cumulus cell-enclosed oocytes was significantly higher than the frequency of GVBD when oocytes were cultured while denuded of cumulus cells. of maturation is apparently not mediated solely by oocyte-cumulus cell uncoupling and termination of the transfer of an inhibitory meiotic signal from cumulus cells to the oocyte. The data suggest the generation of a positive signal within cumulus cells in response to hormone treatment that acts upon the oocyte to stimulate GVBD in the continued presence of inhibitory factors.     

Modulation of meiotic arrest in mouse oocytes by guanyl nucleotides and modifiers of G-proteins.

Guanyl nucleotide binding-proteins, or G-proteins, are ubiquitous molecules that are involved in cellular signal transduction mechanisms. Because a role has been established for cAMP in meiosis and G-proteins participate in cAMP-generating systems by stimulating or inhibiting adenylate cyclase, the present study was conducted to examine the possible involvement of G-proteins in the resumption of meiotic maturation. Cumulus cell-free mouse oocytes (denuded oocytes) were maintained in meiotic arrest in a transient and dose-dependent manner when microinjected with the nonhydrolyzable GTP analog, GTP gamma S. This effect was specific for GTP gamma S, because GppNHp, GTP, and ATP gamma S were without effect. Three compounds, known to interact with G-proteins, were tested for their ability to modulate meiotic maturation: pertussis toxin, cholera toxin, and aluminum fluoride (AlF4-). Pertussis toxin had little effect on maturation in either cumulus cell-enclosed oocytes or denuded oocytes when meiotic arrest was maintained with dibutyryl cAMP (dbcAMP) or hypoxanthine. Cholera toxin stimulated germinal vesicle breakdown (GVB) in cumulus cell-enclosed oocytes during long-term culture, but its action was inhibitory in denuded oocytes. AlF4- stimulated GVB in both cumulus cell-enclosed oocytes and denuded oocytes when meiotic arrest was maintained with hypoxanthine but was much less effective in dbcAMP-arrested oocytes. In addition, AlF4- abrogated the inhibitory action of cholera toxin in denuded oocytes and also that of follicle-stimulating hormone (FSH) in cumulus cell-enclosed oocytes. Cholera toxin or FSH alone each stimulated the synthesis of cAMP in oocyte-cumulus cell complexes, whereas pertussis toxin or AlF4- alone were without effect. Both cholera toxin and AlF4- augmented the stimulatory action of FSH on cAMP. These data suggest the involvement of guanyl nucleotides and G-proteins in the regulation of GVB, although different G-proteins and mediators may be involved at the oocyte and cumulus cell levels. Cholera toxin most likely acts by ADP ribosylation of the alpha subunit of Gs and increased generation of cAMP, whereas AlF4- appears to act by antagonizing a cAMP-dependent step.     

Inhibition of oocyte maturation in the mouse: Participation of cAMP,steroid hormones,and a putative maturation-inhibitory factor

The hypothesis that cumulus cells inhibit oocyte maturation by a cAMP-dependent process was tested (R. M. Schultz, R. Montgomery, P. F. Ward-Bailey, and J. J. Eppig (1983). Dev. Biol.95, 294–304.). Treatment of isolated cumulus cell-oocyte complexes with follicle-stimulating hormone (FSH) resulted in a dose-dependent increase in both cumulus cell cAMP levels and in the extent of inhibition of germinal vesicle breakdown (GVBD), the first morphological manifestation of oocyte maturation. Furthermore, it was found that concentrations of a membrane-permeable analog of cAMP, dibutyryl cAMP (dbcAMP), that were below those required for complete meiotic inhibition had a greater inhibitory effect on cumulus cell-enclosed oocytes than on denuded oocytes. Cumulus cell-enclosed and denuded oocytes matured at the same time in the absence of dbcAMP. Ablation of the gap junctions that couple cumulus cells to the oocyte abolished the maturation-inhibitory action of cumulus cells that was promoted either by FSH or low concentrations of dbcAMP. These results are consistent with the hypothesis that inhibition of oocyte maturation is mediated by a factor of granulosa/cumulus cell origin, other than cAMP, which requires cAMP for its activity and/or generation, and an intact intercellular coupling pathway between cumulus cells and the oocyte. A variety of steroid hormones potentiated the FSH-induced inhibition of maturation in cumulus cell-enclosed oocytes. In addition, steroid hormones inhibited maturation in denuded oocytes, but only when oocyte cAMP levels were elevated by cAMP analogs or forskolin. Steroids alone did not inhibit maturation of either cumulus cell-enclosed or denuded oocytes. Moreover, the steroids alone or in combination with FSH did not affect metabolic coupling between the cumulus cells and oocytes, nor did testosterone affect the forskolin-induced level of cAMP in denuded oocytes. Therefore, it is proposed that the oocyte is a site for the synergistic activity of steroid hormones with a cAMP-dependent process in inhibiting maturation. Results of these studies are discussed in terms of the roles of intercellular communication, cAMP, a putative maturation-inhibiting factor, and steroid hormones in the inhibition of maturation of mouse oocytes.     

Mouse versus rat: Profound differences in meiotic regulation at the level of the isolated oocyte

Cumulus cell-enclosed oocytes (CEO), denuded oocytes (DO), or dissected follicles were obtained 44-48?hr after priming immature mice (20-23 days old) with 5?IU or immature rats (25-27 days old) with 12.5?IU of equine chorionic gonadotropin, and exposed to a variety of culture conditions. Mouse oocytes were more effectively maintained in meiotic arrest by hypoxanthine, dbcAMP, IBMX, milrinone, and 8-Br-cGMP. Atrial natriuretic peptide, a guanylate cyclase activator, suppressed maturation in CEO from both species, but mycophenolic acid reversed IBMX-maintained meiotic arrest in mouse CEO with little activity in rat CEO. IBMX-arrested mouse, but not rat, CEO were induced to undergo germinal vesicle breakdown (GVB) by follicle-stimulating hormone (FSH) and amphiregulin, while human chorionic gonadotropin (hCG) was ineffective in both species. Nevertheless, FSH and amphiregulin stimulated cumulus expansion in both species. FSH and hCG were both effective inducers of GVB in cultured mouse and rat follicles while amphiregulin was stimulatory only in mouse follicles. Changing the culture medium or altering macromolecular supplementation had no effect on FSH-induced maturation in rat CEO. The AMP-activated protein kinase (AMPK) activator, AICAR, was a potent stimulator of maturation in mouse CEO and DO, but only marginally stimulatory in rat CEO and ineffective in rat DO. The AMPK inhibitor, compound C, blocked meiotic induction more effectively in hCG-treated mouse follicles and heat-treated mouse CEO. Both agents produced contrasting results on polar body formation in cultured CEO in the two species. Active AMPK was detected in germinal vesicles of immature mouse, but not rat, oocytes prior to hCG-induced maturation in vivo; it colocalized with chromatin after GVB in rat and mouse oocytes, but did not appear at the spindle poles in rat oocytes as it did in mouse oocytes. Finally, cultured mouse and rat CEO displayed disparate maturation responses to energy substrate manipulation. These data highlight significant differences in meiotic regulation between the two species, and demonstrate a greater potential in mice for control at the level of the cumulus CEO.     

The meiotic response of cumulus cell-enclosed mouse oocytes to follicle-stimulating hormone in the presence of different macromolecules.

Experiments were carried out to determine the effect of different macromolecules on the follicle-stimulating hormone (FSH)-induced maturation of mouse oocytes in culture. Cumulus cell-enclosed oocytes (CEO) were isolated from gonadotropin-primed mice and maintained in meiotic arrest for 17-18 h with the cAMP analogue, dibutyryl cAMP (dbcAMP). Germinal vesicle breakdown (GVB) was stimulated by the addition of FSH. Medium was supplemented with either no macromolecule or with varying concentrations of polyvinylpyrrolidone (PVP), polyvinylalcohol (PVA), crystallized bovine serum albumin (BSA), or fetal bovine serum (FBS). Oocyte maturation in all FSH-free cultures occurred at a frequency of about 30% or below. High frequencies of maturation were achieved when FSH was added to macromolecule-free medium or to cultures containing PVP, PVA, or BSA. Crystallized BSA was the most effective of these in supporting stimulation of maturation (94% GVB at 3 mg/ml, compared with 72-74% with synthetic polymer-supplemented or macromolecule-free media). The BSA effect was not due to contaminating fatty acids, and a less pure fraction V BSA was not as effective in supporting FSH-induced maturation. FBS suppressed FSH stimulation of maturation in a dose-dependent fashion. Sera from pigs, goats, horses, and rats were also inhibitory, but bovine calf serum (BCS) permitted a high maturation frequency (80% GVB). When added to medium containing either FBS or BCS, crystallized BSA had no effect on FSH-stimulated maturation, but fraction V BSA suppressed maturation in both serum-supplemented media. Under no conditions did FSH stimulate maturation in cumulus cell-free oocytes. These results demonstrate that hormone-induced oocyte maturation is supported in vitro by nonprotein polymers as well as BSA and that the behavior of the oocyte-cumulus cell complex depends on the purity of the BSA sample. In addition, serum contains inhibitory factors that suppress the positive response to FSH. Thus, the choice of macromolecular supplement is of critical importance when testing the hormone responsiveness of isolated cumulus cell-enclosed oocytes in culture.     

Hypoxanthine and adenosine in murine ovarian follicular fluid: concentrations and activity in maintaining oocyte meiotic arrest

The concentrations of hypoxanthine and adenosine in ovarian follicular fluid were estimated, using high-performance liquid chromatography, for three groups of mice: 1) pregnant mare's serum gonadotropin (PMSG)-primed mice; 2) PMSG-primed mice 2 h after injection with human chorionic gonadotropin (hCG); and 3) PMSG-primed mice 5 h after injection with hCG. The concentration of hypoxanthine in follicular fluid of Group 1 mice was 2-4 mM and of adenosine was 0.35-0.70 mM. There was no difference in the concentrations of these purines in the follicular fluid of Group 2 mice, in which maturation had been induced with hCG but the samples were taken just before germinal vesicle breakdown (GVBD). Therefore, a decrease in the concentrations of these purines does not appear to induce GVBD. A significant decrease in the concentrations of hypoxanthine and adenosine was observed in the follicular fluid of Group 3 mice in which GVBD had already occurred. This decrease was probably a result of an increase in follicular fluid volume. Adenosine had a significant, but transient, effect in maintaining both cumulus cell-enclosed and denuded oocytes in meiotic arrest; all oocytes had undergone GVBD by 100 min incubation in 1 mM adenosine. When GVBD was assessed after 3 h culture, concentrations up to 5 mM adenosine failed to maintain meiotic arrest. In contrast, hypoxanthine (2-5 mM) had a dose-dependent effect in maintaining both cumulus cell-enclosed and denuded oocytes in meiotic arrest that was sustained up to 24 h. Cumulus cell-enclosed oocytes were always more sensitive to hypoxanthine than were denuded oocytes. There was a strong synergistic effect of adenosine and hypoxanthine in maintaining meiotic arrest; 4 mM hypoxanthine and 0.75 mM adenosine maintained more than 95% of the oocytes in meiotic arrest for culture periods up to 24 h. This action was completely reversible by withdrawal of the purines. It is hypothesized that the synergistic effect of these purines may result both by promoting cyclic adenosine monophosphate synthesis (adenosine), and by preventing its hydrolysis (hypoxanthine).     

EGF-like peptides mediate FSH-induced maturation of cumulus cell-enclosed mouse oocytes

This study was carried out to examine the participation of epidermal growth factor (EGF)-like peptides in the induction of germinal vesicle breakdown (GVB) in mouse cumulus cell-enclosed oocytes (CEO). The EGF-like peptide, amphiregulin (AR), dose-dependently stimulated meiotic resumption in CEO, but not denuded oocytes (DO) maintained in meiotic arrest with 300 microM dbcAMP. The EGF receptor (EGFR) kinase inhibitor, AG1478, blocked meiotic resumption induced by FSH and AR in CEO, but had no effect in DO. FSH-induced maturation was also suppressed by antisera to both EGFR and EGF. Maturation occurred with slightly faster kinetics in AR-stimulated CEO when compared to FSH-stimulated CEO. When CEO were maintained in meiotic arrest with a low level of dbcAMP, FSH was initially inhibitory to maturation and later stimulatory; the stimulatory phase was prevented by AG1478, indicating mediation by EGF-like peptides. Pulsing CEO with high levels of dbcAMP also stimulated GVB and could be blocked by AG1478. Treatment of arrested CEO with PKC agonists stimulated maturation and this was prevented with AG1478 as well as antibodies to EGFR. FSH-induced maturation of dbcAMP-arrested CEO was blocked by bisindolylmaleimide I (BIM-I), an inhibitor of PKC, implicating PKC in FSH action. EGF-stimulated CEO failed to resume maturation in the presence of glycerrhetinic acid, a gap junction inhibitor, suggesting transfer of positive signal through the cell-cell coupling pathway. These data support the idea that EGF-like peptides provide a common pathway mediating the meiosis-inducing influence of FSH, cAMP pulsing, and PKC activation in mouse CEO by a gap junction-dependent process.     

Regulation of oocyte maturation in the mouse: possible roles of intercellular communication, cAMP, and testosterone

Experiments were performed to determine if elevation of cumulus cell cAMP results in an increase in mouse oocyte cAMP while the heterologous gap junctions were intact. Both follicle-stimulating hormone (FSH) and cholera toxin induced a marked increase (>20-fold) in intracellular cAMP in isolated mouse cumulus cell-oocyte complexes in the presence of 3-isobutyl-1-methyl xanthine (IBMX). Concomitantly, both FSH and cholera toxin transiently inhibited resumption of meiosis of cumulus cell-enclosed but not denuded oocytes. The transient nature of the inhibitory effect produced by either FSH or cholera toxin was correlated with the cAMP level in the cumulus cell-oocyte complex. The inhibitory effect, however, was apparently not due to movement of cumulus cell cAMP to the oocyte via the functional heterologous gap junctions between cumulus cells and the oocyte. Radioimmunoassay of cAMP in oocytes free of attached cumulus cells or cumulus cell-enclosed oocytes exposed to either FSH or cholera toxin revealed that both groups of oocytes contained similar amounts of cAMP (about 0.14 fmole/oocyte). Metabolic labeling of cumulus cell-oocyte complexes with [³H]adenosine followed by incubation with either FSH or cholera toxin resulted in a marked increase in the amount of radiolabeled cAMP compared to that in unstimulated complexes. However, similar amounts of radiolabeled cAMP were found in oocytes derived from either stimulated or unstimulated complexes. Thus, we have not detected, using two methods of assay, that increasing the cAMP content of the cumulus cells results in any increase in the cAMP content of the oocyte. The apparent compartmentalization of cumulus cell cAMP elevated in response to either FSH or cholera toxin was not due to disruption of intercellular communication between the two cell types during the incubation; metabolic cooperativity was present between the two cell types and molecules of similar molecular weight and charge relative to that of cAMP were rapidly equilibrated between the two cell types. Testosterone potentiated the FSH/cholera toxin-induced transient inhibition of maturation of cumulus cell-enclosed oocytes. However, testosterone did not increase cAMP accumulation produced by either FSH or cholera toxin, decrease the rate of cAMP degradation, or promote movement of cumulus cell cAMP to the oocyte. Since cAMP elevated in response to FSH or cholera toxin appeared to be compartmentalized to cumulus cells and since neither FSH, cholera toxin, nor testosterone inhibited resumption of meiosis in denuded oocytes, it appears that the inhibitory effect promoted by FSH or cholera toxin is directly mediated by an agent other than cAMP, although cAMP generation is required for its action and that cumulus cells mediate the inhibition. These results are discussed in terms of a possible role of cAMP and steroids in regulating maturation in the mouse.     

Altered meiotic regulation in oocytes from diabetic mice

In the present study, we have utilized a streptozotocin-induced diabetic mouse model to examine how the diabetic condition and different glucose concentrations affect several parameters of reproductive physiology. We report that oocyte maturation is altered under all experimental conditions examined. In cumulus cell-enclosed oocytes (CEO) from diabetic mice, spontaneous maturation was accelerated but the FSH-mediated delay of spontaneous maturation was suppressed. Higher glucose levels in the culture medium suppressed spontaneous maturation but did not influence the transient arrest mediated by FSH. Meiotic arrest in CEO by hypoxanthine and dibutyryl cAMP (dbcAMP) was less effective at higher glucose concentrations. In addition, both FSH-induced maturation in vitro and hCG-induced maturation in vivo were reduced by the diabetic condition. The ovulation rate was lowered by about 50% in diabetic mice and fewer ovulated ova had reached metaphase II. Despite the decreased number of ova at metaphase II, in vitro cultures showed the oocytes were capable of completing meiotic maturation at control levels. Insulin treatment reversed the detrimental effects of diabetes on meiotic induction, ovulation, and completion of meiotic maturation. Cultures of pronuclear-staged embryos confirmed a negative effect of diabetes and hyperglycemia on development to the blastocyst stage. These data suggest that defects in meiotic regulation brought about by the diabetic condition are due to decreased communication between the somatic and germ cell compartments, and it is concluded that such conditions may contribute to postfertilization developmental abnormalities.     

A combination of FSH and dibutyryl cyclic AMP promote growth and acquisition of meiotic competence of oocytes from early porcine antral follicles

Growing porcine oocytes from early antral follicles (1.2-1.5 mm in diameter) do not mature to metaphase II (MII, 4%) under culture conditions which supported maturation (MII, 95%) of fully grown oocytes from large (4-6 mm) antral follicles. We hypothesized that FSH and dbcAMP supported growth and acquisition of meiotic competence. Growing oocytes (113.0 ± 0.4 μm, mean ± SEM) were cultured for 5 d in medium supplemented with 1 mM dbcAMP, 0.01 IU/mL FSH or both; in these media, oocytes reached, 120.5 ± 0.4, 123.5 ± 0.4 and 125.7 ± 0.2 μm, respectively, after 5 d, and then were matured in vitro for 48 h. Oocytes remained enclosed by cumulus cells when cultured with FSH (82%) or both FSH and dbcAMP (80%), but not with dbcAMP alone (0%). Furthermore, oocytes cultured with FSH maintained trans-zonal projections of cumulus cells. Oocytes remained at the GV stage at higher rates when cultured with dbcAMP and FSH (99%), or dbcAMP (97%), than with FSH (64%), or without either (75%). Following in vitro maturation, oocytes reached MII after in vitro growth with dbcAMP (19%), FSH (11%), or both (68%). When oocytes were cultured with both FSH and dbcAMP, activation of Cdc2 and MAP kinases in growing oocytes was similar to fully grown oocytes. In conclusion, growing porcine oocytes grew and acquired meiotic competence in medium supplemented with dbcAMP and FSH; the former maintained oocytes in meiotic arrest, whereas the latter maintained trans-zonal projections of cumulus cells to oocytes during in vitro growth culture.     

Metabolic coupling and ligand-stimulated meiotic maturation in the mouse oocyte-cumulus cell complex.

Cumulus cells are metabolically coupled to the mammalian oocyte via heterologous gap junctions. One function attributed to the gap junctional communications is the transfer of regulatory signals that direct the meiotic state of the oocyte. However, the precise role of these junctions in meiotic maturation is still unclear. The aim of this study was to test the hypothesis that meiotic resumption is induced by the transfer of a stimulatory signal(s) from the cumulus cells to the oocyte through the gap junctional coupling pathway. We have previously shown that the mitogenic lectin concanavalin A (Con A) induces oocyte maturation in isolated cumulus cell-enclosed oocytes (CEO) when meiotic arrest is maintained with a number of different inhibitory agents [Biol Reprod 1990; 42:413-423]. In the present study, Con A stimulated maturation in dibutyryl cAMP (dbcAMP)-arrested CEO but not in denuded oocytes cocultured with cumulus cells. Heptanol, a known gap junction uncoupler, effectively prevented Con A- and FSH-induced maturation of intact CEO and dramatically reduced metabolic coupling between cumulus cells and the oocyte. However, this alcohol had no effect on denuded oocytes (DO) or on dbcAMP-arrested CEO in the absence of stimulating ligand. Con A and FSH produced only a minimal loss of coupling. When the effects of heptanol were compared with those of the n-alkanols hexanol and decanol, the efficacies of these agents as suppressors of Con A-stimulated oocyte maturation was directly related to their relative abilities to suppress metabolic coupling.(ABSTRACT TRUNCATED AT 250 WORDS)     

Glutamine and the maintenance of meiotic arrest in mouse oocytes: influence of culture medium,glucose, and cumulus cells

The selection of culture media and supplements therein has a tremendous impact on the regulation of oocyte maturation in vitro. In the present study, we have evaluated how altering the levels of glutamine in the presence or absence of glucose affects meiotic arrest in cumulus cell-enclosed oocytes (CEO) and denuded oocytes (DO) when cultured in either the simple medium M16 or the more complex Eagle's minimum essential medium (MEM). We have also tested the effectiveness of follicle-stimulating hormone (FSH) in triggering germinal vesicle breakdown (GVB) and purine de novo synthesis in differing MEM culture conditions. When DO were cultured 17-18 hr in hypoxanthine (HX)- or dbcAMP-supplemented M16 medium, neither glucose nor glutamine had any effect on oocyte maturation, with dbcAMP the more effective inhibitor. In the absence of glutamine, cumulus cells promoted meiotic resumption, since significantly lower levels of meiotic arrest were maintained in CEO than in DO by either HX or dbcAMP, but addition of the amino acid dose-dependently decreased the maturation percentage in CEO below that observed in DO. In MEM, glutamine and glucose again had little effect on the maturation of DO, although the percentage of maturing DO in HX-supplemented medium was about 20% lower than that in M16 medium. In the absence of glucose, high levels of maturation were observed in CEO in glutamine-free medium that were dose-dependently lowered by the amino acid. However, when glucose was present, CEO were as effectively arrested as DO when glutamine was absent, with no further effect of the amino acid. This inhibitory action of glucose was dependent on the essential amino acids present in MEM. The effects of glutamine were not due to changes in metabolic coupling between the oocyte and cumulus cells. Measurement of purine de novo synthesis indicated that the maintenance of meiotic arrest as well as FSH induction of meiotic resumption were associated with increases in purine synthesis. We conclude that glucose and glutamine act cooperatively to promote the synthesis of new purine compounds within the somatic compartment and that the timing and duration of such synthesis determines whether meiotic resumption will be suppressed or promoted.     

Culture conditions affect meiotic regulation in cumulus cell-enclosed mouse oocytes

To test the hypothesis that culture conditions influence meiotic regulation in mouse oocytes, we have examined the effects of six culture media, four organic buffers, and pH on spontaneous maturation, the maintenance of meiotic arrest and ligand-induced maturation in cumulus cell-enclosed oocytes from hormonally primed immature mice. The media tested were Eagle's minimum essential medium (MEM), Ham's F-10 (F-10), M199, M16, Waymouth's MB 752/1 (MB 752/1), and Leibovitz's L-15 (L-15). All six media supported ≥94% spontaneous germinal vesicle breakdown (GVB) during a 17–18 hr incubation period, but polar body formation was lower in M199 and MB 752/1 than in the other media. The incidence of polar bodies could be increased in these two media by the addition of pyruvate. With the exception of M16 and MB 752/1, 4 mM hypoxanthine maintained a significant number of cumulus cell-enclosed oocytes in meiotic arrest. Inhibition could be restored by the addition of glutamine to M16 and pyruvate to MB 752/1. Folliclestimulating hormone (FSH) and epidermal growth factor (EGF) stimulated GVB in those media in which hypoxanthine was inhibitory. dbcAMP was able to maintain meiotic arrest in all of the media, but was least effective in M16. FSH stimulated GVB in all dbcAMP-arrested groups except L-15, and FSH became stimulatory in L-15 when the pyruvate level was reduced to 0.23 mM and galactose was replaced with 5.5 mM glucose. When MEM was buffered principally with the organic buffers MOPS, HEPES, DIPSO, or PIPES (at 20 mM), high frequencies of GVB and polar body formation were observed in inhibitor-free medium. dbcAMP suppressed GVB in all groups; hypoxanthine also maintained meiotic arrest in all buffering conditions, although this effect was nominal in PIPES-buffered medium. FSH and EGF stimulated GVB in all dbcAMP- and hypoxanthine-treated groups. When the concentration of HEPES was increased from 20 mM to 25 mM, a more pronounced suppressive effect on maturation in both dbcAMP- and hypoxanthine-supplemented groups was observed in the absence of FSH. But whereas HEPES reduced the induction of maturation by FSH in dbcAMP-arrested oocytes, this buffer had no effect on FSH action in hypoxanthine-treated oocytes. When MEM was buffered with HEPES and the pH was adjusted to 6.8, 7.0, 7.2, or 7.4, a dramatic effect of pH on meiotic maturation was observed. pH had no significant effect on hypoxanthine salvage by oocyte-cumulus cell complexes, but FSH-induced de novo purine synthesis was significantly augmented by increased pH, in parallel with increased induction of GVB. The results of this study demonstrate that the use of different culture media, or minor changes in culture conditions, can lead to significant variation in (1) the spontaneous maturation of oocytes, (2) the ability of meiotic inhibitors to suppress GVB, or (3) the efficacy of meiosis-inducing ligands. Furthermore, such observations provide a unique opportunity to examine specific molecules and metabolic pathways that can account for this variation and thereby gain valuable insights into the mechanisms involved in meiotic regulation. Mol. Reprod. Dev. 46:551–566, 1997. © 1997 Wiley-Liss, Inc.     

Inhibition of LH-induced and spontaneous meiotic maturation in mouse oocytes by N alpha-tosyl-L-lysine chloromethylketone

The effect of N alpha-tosyl-L-lysine chloromethylketone (TLCK), an inhibitor of trypsin-type proteases, on luteinizing hormone (LH)-induced and spontaneous meiotic maturation and follicular production of cAMP in mice was determined. When follicle-enclosed mouse oocytes were incubated with LH (1 micron/ml), they underwent the breakdown of the germinal vesicle (GVBD). TLCK (0.02-0.5 mM) inhibited LH-induced GVBD in folliculated oocytes. The concentration (0.5 mM) of TLCK that inhibited LH-induced GVBD did not significantly suppress LH-induced cAMP production by follicle cells. The effect of TLCK on spontaneous maturation in cumulus cell-enclosed and denuded oocytes was also determined. TLCK strongly inhibited spontaneous maturation in denuded oocytes only if it was added to the incubation medium for 1-3 h before oocytes were liberated from the follicular tissue. The inhibition of oocyte maturation by TLCK was significantly greater in cumulus cell-enclosed oocytes than in denuded oocytes, either with or without preincubation with TLCK. These results suggest that trypsin-type protease in oocytes participates in the process of meiotic maturation in mouse oocytes.     

Comparison between effects of 3-isobutyl-1-methylxanthine and FSH on gap junctional communication, LH-receptor expression, and meiotic maturation of cumulus-oocyte complexes in pigs

We investigated cAMP content, gap junctional communications (GJCs) status, and LH-receptor (LH-R) expression in porcine cumulus-oocyte complexes (COCs) during in vitro maturation treated with the phosphodiesterase (PDE) inhibitor 3-isobutyl-1-methylxanthine (IBMX) or with FSH. COCs were cultured for 20 hr (1st culture) in M199 containing 10% FBS (basic medium, BM group) or BM supplemented with FSH (FSH group) or IBMX (IBMX group). Each COC was then transferred into BM containing both FSH and LH and cultured for an additional 24 hr (2nd culture). The proportions of metaphase-II (M-II) oocytes at the end of the 2nd culture did not differ between the FSH (75.7%) and IBMX (68.2%) groups, whereas only 10.1% of oocytes in the BM group reached the M-II stage. During the 1st culture, the cAMP content of COCs and oocytes became significantly higher in the FSH and IBMX groups than in the BM group; the FSH group had a far greater increment than did the IBMX group. GJCs in the FSH and BM groups gradually closed with increasing duration of the 1st culture, whereas a significantly higher proportion of COCs in the IBMX group still had open GJCs than in the other two groups. Furthermore, LH-R mRNA expression significantly increased in both the FSH and IBMX groups compared with the BM group. These results suggest that inhibition of PDEs in porcine COCs make the oocyte ready for release from meiotic arrest, and that maintenance of a moderate cAMP content may prolong GJCs and stimulate LH-R expression.     

Luteinizing hormone receptor formation in cumulus cells surrounding porcine oocytes and its role during meiotic maturation of porcine oocytes

We investigated the formation of LH receptor (LHR) in cumulus cells surrounding porcine oocytes and the role of LHR in meiotic maturation of oocytes. At least three splice variants of LHR mRNA were detected in cumulus cells, in addition to the full-length form. Low levels of three types of products were seen in cumulus cells from cumulus oocytes complexes (COCs), whereas the full-length form was significantly increased by 12-h cultivation with FSH. The addition of FSH also significantly increased the binding level of biotinylated hCG to COCs. The formation of LHR in FSH-stimulated cumulus cells was not affected by additional 0.5 mM phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine (IBMX), and the oocytes were synchronized to the germinal vesicle (GV) II stage by exposure to 0.5 mM IBMX and FSH for 20 h. The binding of LH to its receptor induced a further increase in cAMP level and progesterone production and acceleration of meiotic progression to the metaphase I stage. The oocytes cultured with LH for 24 h following cultivation with FSH and IBMX were used for in vitro fertilization. At 6 days after in vitro fertilization, blastocyst rate in oocytes matured under these conditions was significantly higher than that of oocytes cultured in the absence of LH. Treatment of oocytes with FSH and 0.5 mM IBMX to express LH receptor in cumulus cells while holding oocytes at the GV II stage is a very beneficial way to produce in vitro-matured oocytes, which have high developmental competence.     

Involvement of cAMP-dependent protein kinase and protein phosphorylation in regulation of mouse oocyte maturation

We report the results of experiments which support the hypothesis that, in mouse oocytes, a decrease in intraoocyte cyclic AMP (cAMP) initiates meiotic maturation; oocytes microinjected with cyclic nucleotide phosphodiesterase (PDE) underwent germinal vesicle breakdown (GVBD) in the presence of 3-isobutyl-1-methylxanthine (IBMX), which inhibited GVBD both in oocytes not injected with PDE and in oocytes injected with heat-inactivated PDE. Cyclic AMP-dependent protein kinase (PK) has been proposed to mediate maintenance of meiotic arrest by cAMP. In support of this hypothesis is the observation that 2'-deoxy cAMP, which does not activate PK, did not maintain meiotic arrest as did cAMP; this result was obtained both by microinjection of these compounds and by incubating oocytes in the presence of their membrane-permeable N6-monobutyryl derivatives. Furthermore, microinjection into oocytes of the heat-stable inhibitor of PK, PKI, induced GVBD in the presence of either dibutyryl cAMP (dbcAMP) or IBMX. Meiotic arrest was maintained in the absence of dbcAMP or IBMX, however, by microinjected catalytic subunit of PK, but not by catalytic subunit coinjected with PKI. In addition, specific changes in oocyte phosphoproteins that preceded resumption of meiosis were induced, in the presence of dbcAMP, by microinjected PKI; these changes were also tightly coupled with commitment of oocytes to resume meiosis. These results are discussed in terms of our model for regulation of meiotic arrest and maturation.     

Requirement for glucose in ligand-stimulated meiotic maturation of cumulus cell-enclosed mouse oocytes.

In this study, the effect of different energy sources used in Eagle's minimum essential medium on the meiotic maturation of mouse oocytes in culture was examined. The effects of glucose (5.5 mmol 1(-1)), pyruvate (0.23 mmol 1(-1)) and glutamine (2 mmol 1(-1)) in different combinations were tested on the maturation of denuded oocytes in the presence or absence of 300 mumol dibutyryl cAMP 1(-1) during 17-18 h of culture. In the absence of cyclic nucleotide, only oocytes from those groups containing pyruvate resumed maturation at a high frequency (99-100% germinal vesicle breakdown); all other combinations resulted in < or = 54% germinal vesicle breakdown. When dibutyryl cAMP was introduced, all pyruvate-containing groups exhibited maturation frequencies of about 50%, whereas maturation in all other groups was negligible (< or = 10% GVB). Pyruvate was also important for the maintenance of viability in denuded oocytes (> or = 86% viability in pyruvate-containing medium; < or = 35% viability in pyruvate-free groups). When cumulus cell-enclosed oocytes were cultured in medium without inhibitor, all combinations of energy substrates supported high frequencies of maturation (> or = 89% germinal vesicle breakdown) and viability (> or = 91%). The addition of dibutyryl cAMP resulted in inhibition of meiotic maturation (5-33% germinal vesicle breakdown) in all cultures except the pyruvate-alone group (97% germinal vesicle breakdown). Viability in cumulus cell-enclosed oocytes was greatest when two or more energy substrates were present in the medium. Follicle-stimulating hormone (FSH) produced a stimulation of meiotic maturation in all cultures of meiotically arrested cumulus cell-enclosed oocytes, but maximal induction of germinal vesicle breakdown was dependent upon D-glucose. Concanavalin A (ConA)-induced meiotic maturation was also dependent upon D-glucose. Uptake and metabolism of D-glucose by the cumulus cells is important in mediating the stimulatory effects of these ligands on oocyte maturation because (1) both FSH and ConA stimulated uptake of D-glucose and 2-deoxyglucose but not 3-O-methylglucose; (2) phloretin prevented the stimulatory action of FSH and ConA on germinal vesicle breakdown at a concentration that suppressed ligand-induced uptake of D-glucose; (3) 2-deoxyglucose, a hexose that suppresses glycolysis, prevented the induction of meiotic maturation by FSH and ConA and (4) D-mannose, a glycolysable sugar, was as effective as D-glucose in supporting the ligand effects.(ABSTRACT TRUNCATED AT 400 WORDS)     

A potential role for AMP-activated protein kinase in meiotic induction in mouse oocytes

Cyclic adenosine monophosphate (cAMP) has been implicated as an important regulator of meiotic maturation in mammalian oocytes. A decrease in cAMP, brought about by the action of cAMP phosphodiesterase (PDE), is thought to initiate germinal vesicle breakdown (GVB) by the inactivation of cAMP-dependent protein kinase. However, the product of PDE activity, 5'-AMP, is a potent activator of an important regulatory enzyme, AMP-activated protein kinase (AMPK). The aim of this study was to evaluate a possible role for AMPK in meiotic induction, using oocytes obtained from eCG-primed, immature mice. Alpha-1 and -2 isoforms of the catalytic subunit of AMPK were detected in both oocytes and cumulus cells. When 5-aminoimidazole-4-carboxamide 1-beta-d-ribofuranoside (AICA riboside), an activator of AMPK, was tested on denuded oocytes (DO) and cumulus cell-enclosed oocytes (CEO) maintained in meiotic arrest by dbcAMP or hypoxanthine, GVB was dose-dependently induced. Meiotic induction by AICA riboside in dbcAMP-supplemented medium was initiated within 3 h in DO and 4 h in CEO and was accompanied by increased AMPK activity in the oocyte. AICA riboside also triggered GVB when meiotic arrest was maintained with hypoxanthine, 8-AHA-cAMP, guanosine, or milrinone, but was ineffective in olomoucine- or roscovitine-arrested oocytes, indicating that it acts upstream of maturation-promoting factor. Adenosine monophosphate dose-dependently stimulated GVB in DO when meiotic arrest was maintained with dbcAMP or hypoxanthine. This effect was not mimicked by other monophosphate or adenosine nucleotides and was not affected by inhibitors of ectophosphatases. Combined treatment with adenosine and deoxycoformycin, an adenosine deaminase inhibitor, stimulated GVB in dbcAMP-arrested CEO, suggesting AMPK activation due to AMP accumulation. It is concluded that phosphodiesterase-generated AMP may serve as a transducer of the meiotic induction process through activation of AMPK.     

Involvement of purine nucleotide synthetic pathways in gonadotropin-induced meiotic maturation in mouse cumulus cell-enclosed oocytes

This study was carried out to test the hypothesis that purine nucleotide-generating pathways are required for ligand-stimulated oocyte maturation in meiotically arrested cumulus cell-enclosed oocytes. Oo-cytes from hormonally primed, immature mice were cultured overnight in Eagle's minimum essential medium containing dibutyryl cyclic AMP (dbcAMP) (to maintain meiotic arrest), plus either mycophenolic acid or alanosine (inhibitors of guanyl and adenyl nucleotide production, respectively). Follicle-stimulating hormone (FSH) was added either at the outset of culture or after a 3-hr preincubation period. Under either of these conditions, the inhibitors suppressed FSH induction of germinal vesicle breakdown (GVB). In addition, the potency of FSH as an inducer of GVB was reduced following the 3-hr preincubation period, but this could be prevented if nucleotide precursors such as hypoxanthine, guanosine, or adenosine were included during the first 3 hr. Furthermore, preincubation had little effect on FSH induction of GVB when hypoxanthine was used to maintain meiotic arrest for the entire culture period. The phosphodiesterase inhibitor, 3-isobutyl-l-methylxanthine, could not mimic this protective effect of hypoxanthine. Azaserine and aminopterin, inhibitors of purine de novo synthesis, blocked hormone-triggered maturation in dbcAMP-arrested oocytes, but had little effect on hypoxanthine-arrested oocytes. The effect of azaserine on dbcAMP-treated oocytes could be reversed by the inclusion of AICA riboside, a compound that can be taken up by cells and phosphorylated to form AICAR, which can enter the purine de novo pathway at a point distal to the sites of azaserine inhibition. FSH was stimulatory to purine de novo synthesis, while azaserine, aminopterin, hypoxanthine, and AICA riboside all suppressed de novo synthesis in the presence or absence of FSH, with dbcAMP having no effect. HPLC analysis of ¹⁴C-hypoxanthine metabolism in oocyte-cumulus cell complexes revealed that changes in the pattern of purine metabolism did not mediate the meiosis-inducing effect of FSH. These data support the conclusion that purine nucleotide-generating pathways are vital participants in the mechanism(s) regulating hormone-induced meiotic maturation, and that either the de novo or salvage pathway can fulfill this nucleotide requirement. Mol Reprod Dev 46:155–167, 1997. © 1997 Wiley-Liss, Inc.