Pig membrana granulosa cells prevent resumption of meiosis in cattle oocytes

Membrana granulosa was isolated from healthy large antral follicles of prepubertal or cyclic gilts stimulated with PMSG or PMSG and hCG. Ultrastructural observations revealed that pieces of pig membrana granulosa were associated with the basement membrane. The cattle cumulus-enclosed oocytes (COC) were placed in the rolled pieces of the pig membrana granulosa (PMG). After 8 and 24 hr of coculture with PMG from prepubertal gilts, only 16% and 21% of oocytes underwent GVBD, respectively. PMG from PMSG-stimulated cyclic gilts blocked the resumption of meiosis in all COC. The inhibitory effect of heterologous granulosa cells was fully reversible. When COC were initially incubated for 2 and 4 hr, subsequent culture in PMG prevented GVBD in 100% and 36% of oocytes, respectively. This suggests that functional contact between COC and PMG was established during the first 2 hr of coculture. To follow metabolic cooperation between PMG and COC, PMG was prelabeled with ³H-uridine and cocultured with COC. Autoradiography on semithin sections revealed the intensive passage of ³H-uridine from PMG into the cumulus layer and an oocyte. COC placed in PMG after GVBD (8 and 12 hr of an initial incubation) did not extrude the first polar body. PMG isolated from cyclic gilts after PMSG and hCG stimulation also inhibited GVBD of COC. Since nearly all COC placed in PMG isolated 10 and 12 hr after hCG remained in the GV stage after 24 hr of coculture, the hCG stimulation did not substantially diminish the meiosis inhibiting activity of PMG. During coculture, cattle cumulus cells were closely associated with the basement membrane, but no gap junctions were formed among heterologous granulosa cells. These results suggest that an inhibitory factor secreted by pig granulosa cells is not species specific and it can act in vitro without the mediation of gap junctions. © 1993 Wiley-Liss, Inc.     

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).     

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.     

Effect of cycloheximide upon maturation of bovine oocytes

Germinal vesicle breakdown (GVBD) of bovine oocytes was completely blocked by cycloheximide added to culture medium at concentrations of 1-20 micrograms/ml. Nevertheless, under such conditions a certain degree of chromatin condensation inside the germinal vesicle was observed. The inhibitory effect was not influenced by the presence or absence of cumulus cells and was fully reversible; but the process of GVBD was then significantly accelerated. The critical period in which the proteins necessary for GVBD are synthesized lasts approximately the first 5 h of culture. When germinal vesicle-arrested oocytes are fused to maturing bovine oocytes containing condensed chromosomes, GVBD of immature oocytes occurs within 3 h, even in the presence of cycloheximide. In the mouse, GVBD cannot be inhibited by protein synthesis inhibitors. When immature mouse oocytes are fused with immature bovine oocytes and the giant cells are then cultured in cycloheximide-supplemented medium, both GVs are observed, or only mouse GVBD occurs in common cytoplasm after 8 h of culture. We conclude that protein synthesis is necessary for GVBD of bovine oocytes. Our results also suggest that maturation-promoting factor (MPF) is not autocatalytically amplified in mammalian oocytes.     

Effects of cycloheximide on chromatin condensations and germinal vesicle breakdown (GVBD) of cumulus-enclosed and denuded oocytes in cattle

To determine if newly synthesized protein is imperative for the resumption of meiosis in bovine follicular oocytes collected from small antral follicles, cumulus-enclosed and denuded oocytes were cultured in TCM-199 both with and without various concentrations of the protein synthesis inhibitor, cycloheximide. After 11 h of culture in inhibitor-free medium, all oocytes had undergone germinal vesicle breakdown (GVBD). However, when concentrations of more than 1.0 mug/ml cycloheximide were added to the medium, the meiotic resumption of bovine oocytes was completely blocked. This inhibitory effect of cycloheximide was fully reversible after removal of the inhibitor from maturation media. Germinal vesicle breakdown following removal of cycloheximide occurred twice as fast as in the control medium. Nevertheless, when oocytes were arrested at the germinal vesicle (GV) stage by cycloheximide, a significantly higher proportion of chromatin condensation (40 to 57%) was observed in denuded oocytes than in cumulus-enclosed oocytes (11 to 22%). Thus the cycloheximide treatment could not prevent the chromatin condensation in only denuded oocytes. We conclude that protein synthesis is a prerequisite for GVBD in bovine follicular oocytes and that cumulus cells are responsible for the complementary regulation of the chromatin condensation at the GV stage, regardless of protein synthesis in the oocytes.     

Modulation of oocyte maturation by cyclic adenosine 3', 5'-pyrophosphate

The germinal vesicle (GV) of follicle-enclosed oocytes in mammals remains arrested at the dictyate state of meiosis. Upon releasing the oocytes from the follicles, the meiotic process resumes, leading to dissolution of the GV (GVBD), suggesting that factors in the follicular fluid sustain the meiotic arrest of oocytes. In the present study the spontaneous resumption of meiosis was blocked by the addition of cyclic adenosine 3', 5'-pyrophosphate (cAPP) plus dibutyryl cyclic adenosine 3',5'-monophosphate (dbcAMP), at final concentrations of 25 and 50 microM, respectively. These compounds were ineffective when added separately at these concentrations. None of the other related compounds tested with dbcAMP blocked GVBD. Bovine follicular fluid (BFF) was analyzed for inhibitors of GVBD. BFF was extracted with 70% ethanol and the ethanolic extract chromatographed on Dowex 1-X8 column. The fraction eluted with 0.1 N HCl markedly inhibited GVBD of isolated mouse oocytes in combination with dbcAMP. The active BFF substance and cAPP block spontaneous GVBD of mouse oocytes and may be related substances. The present study supports the thesis that meiotic arrest at the dictyate stage in oocytes is sustained by factors present in follicular fluid and may act in association with cAMP.     

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.     

Cumulus cells secrete a meiosi-inducing substance by stimulation with forskolin and dibutyric cyclic adenosine monophosphate

The role of the cumulus cells in initiating the resumption of meiosis after exposure to forskolin and dbcAMP was studied in the mouse. The resumption of meiosis was monitored by the percentage of germinal vesicle breakdown (GVBD) and polar body formation (PB). The cumulus-enclosed oocytes (CEO) and denuded oocytes (DO) were cultured with and without hypoxanthine (HX) in the culture medium. Three types of experiments were performed: (1) Effect of forskolin on spontaneous resumption of meiosis, i.e. cultures without HX, and two experiments in which HX is present throughout the culture: (2) Effect of transient exposure to forskolin or dibutyric-cyclic adenosinemonophosphate (dbcAMP) on GVBD prior to continued culture without forskolin or dbcAMP (oocyte priming). (3) Priming of CEO with forskolin for 2 hr, separation of cumulus cells and oocytes, followed by coculture of rejoined cumulus cells and oocytes, or coculture of the cumulus cells and new, unprimed DO. (1) Forskolin inhibited a spontaneous resumption of meiosis in a dose-dependent manner during the first 5 hr of culturing. After 22 hr all controls and CEO resumed meiosis, whereas only half of the DO did. (2) At least 1 hr of priming the CEO with forskolin is needed to induce GVBD and PB formation, but forskolin inhibited the resumption of meiosis when present for 24 hr. Similar results were obtained with a high concentration of dbcAMP. (3) A separation and rejoining of oocytes and cumulus cells after priming induced the resumption of meiosis in a significantly greater number of oocytes than in the control oocytes which were not primed. The GVBD of unstimulated DO also increased significantly when cocultured with cumulus cells from primed CEO. The percentage of GVBD in unprimed DO and in DO isolated from primed CEO was the same. We suggest that within 1–2 hr, forskolin and cAMP stimulate cumulus cells to produce a diffusible meiosis-inducing substance which overcomes HX-inhibition and induces oocyte maturation, including both GVBD and PB formation. The CEO must be primed for more than 2 hr before the resumption of meiosis in DO isolated from such CEO is induced. Oocyte-cumulus connections are crucial as far as initiating the production of a meiosis-inducing substance is concerned. Oocyte-cumulus connections are not needed for transferring this substance to the oocyte. © 1994 Wiley-Liss, Inc.     

Effects of cyclic AMP on the spontaneous meiotic maturation of cumulus-free bovine oocytes cultured in chemically defined medium

The rate of spontaneous meiotic maturation and the period of commitment to this process were determined in bovine oocytes devoid of surrounding cumulus cells, cultured in chemically defined medium with bovine serum albumin in the absence of serum. The effects of compounds that are known to elevate levels of intracellular cyclic adenosine monophosphate (cAMP) on the resumption and progression of meiosis were investigated. Bovine oocytes were mass-harvested, denuded of cumulus cells, and cultured in 2A-BMOC medium supplemented with 0.5% bovine serum albumin. Intracellular cAMP levels were indirectly modified using 8-bromo-cAMP, dibutyryl cAMP (dbcAMP), forskolin, or 3-isobutyl-1-methyl xanthine (IBMX). Meiotic maturation was scored cytogenetically. Ninety percent of denuded bovine oocytes mature after 24 h, with 65% progressing beyond anaphase I. These oocytes remain at the germinal vesicle (GV) stage for up to 8 h in culture. GV breakdown (GVBD) occurs in 40.5% of oocytes at 9 h. The peak times for the different meiotic stages were 12 h for diakinesis, 15 h for late diakinesis to metaphase I, 20 h for metaphase I, and 24 h for telophase I. By 48 h, most had reached metaphase II. There is a 2-h lag period between the time at which they become irreversibly committed to mature (at 7 h) and when they demonstrate GVBD (at 9 h). Incubation for 12 h with high concentrations of 8-bromo-cAMP and forskolin significantly inhibited GVBD, while the effect of dbcAMP was similar but less pronounced.(ABSTRACT TRUNCATED AT 250 WORDS)     

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.     

Cytoplasmic changes in relation to nuclear maturation and early embryo developmental potential of porcine oocytes: effects of gonadotropins, cumulus cells, follicular size, and protein synthesis inhibition

Morphological and biochemical changes indicative of cytoplasmic maturation in relation to nuclear maturation progression and early embryo developmental potential was studied. Fluorescently labeled microfilaments and cortical granules were visualized by using laser scanning confocal microscopy. The mitogen-activated protein (MAP) kinase phosphorylation and cyclin B1 levels were revealed by Western blot. With the maturation of oocytes, cortical granules and microfilaments were localized at the cell cortex. A cortical granule-free domain (CGFD) and an actin-thickening area were observed over both the MII spindle of a mature oocyte and chromosomes of a nocodazole-treated oocyte, suggesting that chromosomes, but not the spindle, determined the localization of CGFD and actin-thickening area. In oocytes that are incompetent to resume meiosis, as indicated by the failure of germinal vesicle breakdown (GVBD), peripheral localization of cortical granules and microfilaments, phosphorylation of MAP kinase and synthesis of cyclin B1 did not occur after 44 hr in vitro. These cytoplasmic changes were also blocked when GVBD of meiotically competent oocytes was inhibited by cycloheximide. Culture of oocytes in a chemically defined medium showed that biological factors such as gonadotropins, cumulus cells and follicle size affected both nuclear and cytoplasmic maturation as well as embryo developmental potential. Absence of gonadotropins or removal of cumulus cells alone did not significantly influence GVBD or cyclin B1 levels, but decreased the final maturation and developmental ability of oocytes. A combination of gonadotropin absence and cumulus removal decreased GVBD, MAP kinase phosphorylation and embryo development. A high proportion of oocytes derived from small follicles were able to resume meiosis, synthesize cyclin B(1), phosphorylate MAP kinase and translocate CGs, but their maturation and embryo developmental ability were limited. Removal of cumulus cells from small follicle-derived oocytes severely affected their ability to undergo cytoplasmic and nuclear maturation.     

Protein phosphorylation patterns during in vitro maturation of the goat oocyte

Protein phosphorylation patterns were studied by radiolabelling goat cumulus oocyte complexes with [³²P]orthophosphate for various periods of time. The radiolabelled denuded oocytes were assessed for nuclear status and were used individually for gel electrophoresis. This study demonstrated that specific changes in protein phosphorylations were programmed during goat oocyte maturation. One of the most prominent changes was a general increase in the phosphorylation rate at germinal vesicle breakdown (GVBD). From 8 hr of culture, dominant phosphoprotein bands with apparent molecular weights of 27, 31, 40, and 50 kD were observed; they remained at this level until the metaphase II stage. In the molecular weight range of 65–80 kD, the protein phosphorylation pattern exhibited characteristic differences, with a complex series of phosphoproteins appearing and disappearing, during maturation. Addition of 6-dimethylaminopurine (6-DMAP) at the onset of culture blocked the maturation process after GVBD and induced a dramatic condensation of chromatin. When added at different times after GVBD, 6-DMAP invariably induced chromosome condensation. This inhibition was partly reversible; i.e., after removal of the drug, oocytes were able to progress only until metaphase l. © 1993 Wiley-Liss, Inc.     

腺嘌呤对体外小鼠卵母细胞减数分裂的抑制

本文研究了嘌呤类物质对小鼠卵母细胞减数分裂的影响。于卵母细胞的生发泡内显微注射腺嘌呤和腺嘌呤的类似物苄基腺嘌呤可显著抑制卵母细胞的分裂的重新启动。同时发现在腺嘌呤的作用过程中,腺苷酸环化酶的激活剂氟化钠可增强其对卵母细胞的抑制作用,表明cAMP途径在小鼠卵母细胞减数分裂成熟过程中起重要作用。腺嘌呤在不同培养液中的抑制效果不一,次黄嘌呤在DMEM和EMEM中对小鼠的卵丘细胞-卵母细胞复合体(COC)和无卵丘细胞的裸卵(DO)均具有明显的抑制效应。但腺嘌呤在DMEM比在EMEM中对COC的抑制效果更强,而且腺嘌呤在DMEM中与次黄嘌呤具有协同效应,这些差别可能是由于两种培养液中不同成分如谷氨酰胺造成卵母细胞对腺嘌呤吸收差异而引起的。     

Progression of oocyte maturation from metaphase I to metaphase II is disturbed by previous immunological interference with cumulus cell function.

The effects of an antibody preparation reacting with preovulatory mouse cumuli oophori (anticumulus Ig) on oocyte maturation in vivo and in vitro were studied. Continuous presence of anticumulus Ig in culture medium did not impair oocyte maturation in vitro. Similarly, no effect on oocyte maturation in vivo was observed when anticumulus Ig was given to females superovulated with pregnant mare serum gonadotropin (PMSG) and human chorionic gonadotropin (hCG) at the time of hCG treatment. However, when administered earlier, anticumulus Ig brought about serious disturbances of oocyte meiotic competence, since only immature oocytes were ovulated after anticumulus Ig injection at the time of PMSG treatment and as much as 70% of the ovulated oocytes were immature when the antibody was applied 24 hr later. Previous absorption of anticumulus Ig with isolated cumulus cells removed the inhibitory effect of this preparation on oocyte meiotic competence to the same extent as absorption with whole cumuli oophori, despite the persistence of a strong reactivity of the cumulus cell-absorbed antibody preparations with the cumulus intercellular matrix. The ability of oocytes obtained from antibody-injected animals to mature in vitro was also considerably impaired when the injection was made at the time of PMSG treatment. In all cases the maturation defect concerned the progression of meiosis from metaphase I to metaphase II, while the ability of oocytes to undergo germinal vesicle breakdown (GVBD) was unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cytochalasin D treatment induces meiotic resumption in follicular sheep oocytes

Ovine cumulus-enclosed oocytes collected from antral follicles (3-5 mm in diameter) were cultured in vitro with 2 x 10(6) granulosa cells/ml in the presence or absence of gonadotropins or in the presence of cytochalasin D (CD). The maturation rate was assessed after 24 h of culture. In the control group, in the presence of gonadotropins (follicle-stimulating hormone-luteinizing hormone (FSH-LH; -10 micrograms/ml) 100% of the oocytes reached metaphase II. Whereas intercellular junctions were no longer present after 6-7 h of culture, germinal vesicle breakdown (GVBD) occurred by the same time. In contrast, in the absence of gonadotropin, the majority of the oocytes (59%) remained blocked in GV stage. The inhibition exerted by the granulosa cells on meiotic resumption was overcome when the cumulus-oocyte complexes (COCs) were incubated in CD (5 micrograms/ml) for 6 h at the beginning of the culture. Under these conditions, 85% of the oocytes matured with extrusion of the first polar body. Cytological analysis by cytofluorescence (NBD phallacidin) and electron microscopy showed that, after 6 h of treatment, CD provoked a redistribution of the microfilaments, mainly in the cumulus cells and to a lesser extent in the oocyte cortex. Intercellular junctions disappeared concomitantly with a significant decrease of the intercellular transport of tritiated uridine. The initiation of GVBD occurred at the same time. These results indicate that the resumption of meiosis was correlated with a loss of both junctional complexes (intermediate and gap junctions) between the cumulus cells and the oocyte.     

Butyrolactone I reversibly inhibits meiotic maturation of bovine oocytes,Without influencing chromosome condensation activity

In this study, butyrolactone I (BL I), a potent and specific inhibitor of cyclin-dependent kinases, was shown to block germinal vesicle (GV) breakdown (GVBD) in bovine oocytes in a concentration-dependent manner; GVBD was almost totally inhibited over the course of 24-48 h of culture when 100 microM BL I was included in tissue culture medium 199 containing either polyvinyl alcohol or BSA. Correlated with this inhibition was the failure of either p34(cdc2) kinase or mitogen-activated protein (MAP) kinase to become activated, and it was unlikely that BL I directly inhibited MAP kinase, since 100 microM BL I did not inhibit MAP kinase activity present in extracts obtained from metaphase II-arrested bovine eggs that possess high levels of MAP kinase activity. Nevertheless, the formation of highly condensed bivalents was observed in 78% of the BL I-treated GV-intact oocytes. This result suggests that chromosome condensation during first meiosis in bovine oocytes does not require the activity of either p34(cdc2) kinase or MAP kinase. Treatment of BL I-arrested oocytes with okadaic acid (OA) did not result in either the activation of p34(cdc2) kinase or MAP kinase, or inducement of GVBD. The BL I-induced block of GVBD for 24 h was reversible, and a subsequent 24-h culture resulted in 90% of oocytes reaching metaphase II with emission of the first polar body. Correlated with the progression to and arrest at metaphase II was the full activation of both p34(cdc2) and MAP kinases. The reversibility after 48 h of culture in BL I was partially decreased when compared to that achieved after an initial 24-h culture. Fertilization in vitro of these eggs resulted in a high incidence of both sperm penetration and pronucleus formation (88% and 70%, respectively).