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)     

Gonadotropin-induced murine oocyte maturation in vivo is not associated with decreased cyclic adenosine monophosphate in the oocyte-cumulus cell complex

The cyclic adenosine monophosphate (cAMP) content of intact oocyte-cumulus cell complexes at various times after the induction of oocyte maturation in mice in vivo was correlated with the time of commitment by the oocytes to undergo germinal vesicle breakdown (GVB) and metabolic coupling between the oocyte and cumulus cells. Seventy-nine percent of the oocytes either underwent GVB or were committed to do so by 2 h after injection of human chorionic gonadotropin (hCG). This occurred without a decrease in the coupling between cumulus cells and the oocyte and with increasing cAMP levels in the oocyte-cumulus cell complex. Maintenance of threshold levels of cAMP within mammalian oocytes appears essential for the maintenance of meiotic arrest, but data presented here suggest that oocyte maturation in mice is induced by gonadotropins in nonatretic follicles in vivo by some mechanism other than one which decreases the cAMP content of the intact oocyte-cumulus cell complex.     

Inhibitory effect of purines in meiotic maturation of denuded mouse oocytes.

The potential action of purines, such as hypoxanthine and adenosine, in meiotic arrest was examined using denuded mouse oocytes. The spontaneous meiotic maturation of denuded oocytes was significantly inhibited by hypoxanthine and/or adenosine in a dose-dependent manner. Germinal vesicle breakdown (GVBD) was inhibited even at a low concentration (1 nM) of hypoxanthine, when hypoxanthine was microinjected into the cytoplasm of denuded oocytes. This inhibitory action was potentiated by co-injection with allopurinol, a metabolic blocker of hypoxanthine that can block a metabolic pathway to uric acid. By contrast, a microinjection of adenosine was no longer effective in inhibiting GVBD. Inhibitory action of purines in meiotic maturation was correlated with sustaining intracellular cAMP levels. GVBD was resumed by econazole, one of the nitroimidazole derivatives which act as inhibitors of catalytic subunit of adenylate cyclase. This compound was effective in counteracting the effect of adenosine, but not the action of 3-isobutyl-1-methylxanthine (IBMX) on GVBD, indicating that adenosine is probably exerted at the level of oocyte plasmalemma. These data suggest that the inhibitory action of hypoxanthine and adenosine in oocyte meiotic maturation may be involved in the regulation of cAMP metabolism in a differential manner.     

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).     

Stimulation of parthenogenesis in mouse ovarian follicles by inhibitors of inosine monophosphate dehydrogenase

The effects of hormonal priming and inosine monophosphate (IMP) dehydrogenase inhibitors on the meiotic maturation and parthenogenetic activation of mouse oocytes were examined in this study. In the first series of experiments, unprimed mice or mice primed 24 h with equine chorionic gonadotropin (eCG) received injections of the IMP dehydrogenase inhibitors, bredinin (Br) or mycophenolic acid (MA), followed by histological examination at 24 h, 48 h, and 72 h after drug administration. In both treatment groups, oocytes from nonatretic antral follicles were stimulated to undergo germinal vesicle breakdown by 24 h and became parthenogenetically activated as manifested by pronuclear formation and early cleavage divisions. The parthenotes underwent degeneration by 72 h. In the second part of this study, the effects of priming and drug treatment on parthenogenetic activation and subsequent developmental potential in vitro were examined. Mice were primed with eCG, and 24 or 48 h later received injections of Br or MA. Cumulus cell-enclosed oocytes were isolated 21-22 h later and assessed for maturation; those having undergone germinal vesicle breakdown were cultured and subsequently examined for embryonic development. In mice primed for 24 h, but not 48 h, Br and MA stimulated a significant number of oocytes to resume maturation in vivo; these subsequently underwent activation and developed to blastocysts in vitro. In another series of experiments, germinal vesicle-stage oocytes were isolated from primed or unprimed mice and cultured in vitro to permit spontaneous meiotic maturation. Nine percent of mature ova from 24-h-primed mice developed to 2-cell parthenotes; activation in ova from unprimed and 48-h-primed mice was considerably lower. A time-course experiment demonstrated that the extent of parthenogenetic activation in vivo following Br treatment was related to the period of time between drug injection and isolation of ova, the optimal period being 12 h. Neither Br nor MA had a direct activating effect on the oocytes as evidenced by an inability to induce parthenogenesis in vitro. Simultaneous injection of hCG with either Br or MA stimulated ovulation and prevented the parthenogenetic response. These data are consistent with the idea that conditions within the follicle promote parthenogenetic activation when the oocyte matures in the absence of gonadotropin stimulation.     

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)     

Cyclic AMP-mediated control of oocyte maturation in the catfish, Clarias batrachus (Bloch): effects of 17 alpha,20 beta-dihydroxy-4-pregnen-3-one and phosphodiesterase inhibitors

An increase in the percentage of germinal vesicle breakdown (GVBD) with a corresponding decrease in cAMP was found in the oocytes which were incubated for 36 hr with different concentrations of 17 alpha,20 beta-dihydroxy-4-pregnen-3-one (17 alpha,20 beta-DP). At its highest concentration (1 microgram/ml), 17 alpha,20 beta-DP induced 91.9 +/- 2.3% GVBD and decreased cAMP level to 0.8 +/- 0.1 pmol/oocyte from 2.9 +/- 0.2 pmol/oocyte (control). The two different known inhibitors of phosphodiesterase viz. 3-isobutyl-1-methyl-xanthine (IBMX) and theophylline inhibited GVBD in vitro and promoted the accumulation of cAMP in a dose-dependent manner irrespective of whether the oocytes were treated for a short duration (2 hr) or for a long duration (36 hr). Evaluation of time course response to 1 mM IBMX or 1 mM theophylline revealed that cAMP levels increased at all the time points when compared with their respective controls and blocked maturation. In contrast, 1 microgram/ml 17 alpha,20 beta-DP not only induced oocyte maturation but also caused an immediate decrease in cAMP within the first 2 hr (from 3.2 +/- 1.3 to 1.3 +/- 0.1 pmol/oocyte) of incubation which was maintained till the end of experiment (36 hr). Likewise, a significant inhibition of GVBD and accumulation of cAMP was recorded even in oocytes pre-stimulated with 1 microgram/ml 17 alpha,20 beta-DP for 6 hr and then treated with different concentrations of IBMX or theophylline. Taken together, these data strongly suggest that in C. batrachus a decrease of oocyte cAMP concentration is a prerequisite for the induction of oocyte maturation, and its increase is associated with the maintenance of meiotic arrest.     

The releasing action of calcium upon cyclic AMP-dependent meiotic arrest in hamster oocytes

The effect of increasing cytoplasmic calcium on cyclic adenosine monophosphate (cAMP)-dependent meiotic arrest (%GV where GV is germinal vesicle) in hamster oocytes was investigated. The hypotheses tested were that calcium is required for the spontaneous maturation of hamster oocytes, elevation of calcium in the oocyte-cumulus complex can antagonize cAMP-dependent meiotic arrest, and the intraoocyte level of cAMP remains unchanged, but heterologous metabolic coupling decreases, concomitant with calcium-stimulation of germinal vesicle breakdown (GVBD). Levels of cAMP were elevated by culturing cells in the presence of dibutyryl cAMP (dbcAMP), isobutylmethylxanthine (IBMX) or forskolin and intracellular levels of calcium were manipulated by altering the CaCl2 concentration in the medium and/or by utilizing EGTA or A23187. Intracellular cAMP was determined by RIA, functional metabolic coupling was assessed by determination of the fraction of radiolabeled uridine marker transferred from the cumulus mass to the oocyte, and meiotic stage was determined cytogenetically. Compared with the proportion of oocytes that underwent meiotic maturation in control medium containing 1.53 mM CaCl2, that of cumulus-free (denuded) oocytes was unaffected by culture in the absence of added CaCl2, while that of cumulus-enclosed (intact) oocytes was significantly decreased (%GV = 59.5 +/- 4.8 and 4.2 +/- 0.9 in 0 and 1.53 mM CaCl2, respectively, P less than 0.001, where GV is germinal vesicle). EGTA prevented, in a dose-dependent manner, the spontaneous maturation of denuded oocytes that occurred in 0 mM CaCl2 (ID50 = 0.05 mM, where ID50 is the dose of EGTA that inhibited GVBD in 50% cultured oocytes). In contrast, compared with the control, less than 1 mM EGTA failed to increase the %GV of intact oocytes, although 5 mM EGTA significantly increased meiotic arrest. The %GVBD of oocytes cultured in medium containing 0 mM CaCl2 was dose-dependent on A23187 for both intact oocytes (ID50 = 3.0 microM) and for denuded oocytes cultured in the presence of 0.5 mM EGTA (ID50 = 2.7 microM). Elevated extracellular calcium significantly antagonized dbcAMP-maintained meiotic arrest in both types of oocyte and the %GV was significantly correlated with the pH of the medium [(r) = -0.78 and -0.60 for intact and denuded oocytes, respectively, P less than 0.001 in both cases]. Both CaCl2 and A23187 induced dose-dependent antagonistic effects on forskolin-maintained meiotic arrest in intact oocytes but neither antagonism was accompanied by significant dose-dependent decreases in either the intraoocyte content of cAMP or the extent of heterologous metabolic coupling.(ABSTRACT TRUNCATED AT 400 WORDS)     

Mitogen-activated protein kinase activity during goat oocyte maturation and the acquisition of meiotic competence

Changes in MPF and MAPK activities during meiotic maturation of goat oocytes were investigated. Detection of MPF activity occurred concomitantly with GVBD, increased at MI, decreased during anaphase-telophase I transition, and increased thereafter in MII oocytes. The appearance of MAPK activity was delayed compared to MPF activity. MAPK activity increased after GVBD and persisted during the MI-MII transition. Whether MAPK was implicated in goat oocyte meiotic competence was also investigated by using oocytes from different follicle size categories that arrest at specific stages of the maturation process (GV, GVBD, MI, and MII). Results indicate that the ability of goat oocytes to resume meiosis is not directly related to the presence of Erk2. The ability to phosphorylate MAPK is acquired by the oocyte during follicular growth after the ability to resume meiosis. GVBD-arrested oocytes exhibited a high level of MPF activity after 27 hr of culture. However, 28% of oocytes from this group contained inactive MAPK, and 72% exhibited high MAPK activity. In addition, 29% of GVBD-arrested oocytes contained a residual interphasic network without recruitment of microtubules around the condensed chromosomes; 71% of GVBD-arrested oocytes displayed recruitment of microtubules near the condensed chromosomes and contained asters of microtubules distributed throughout the cytoplasm. These results indicate that oocytes arrested at GVBD were not exactly at the same point in the meiotic cell cycle progression, and suggest that MAPK could be implicated in the regulation of microtubule organization. The data presented here suggest that in goat oocytes, MAPK is not implicated in the early events of meiosis resumption, but rather in post-GVBD events such as spindle formation and MII arrest. © 1996 Wiley-Liss Inc.     

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.     

Maintenance of murine oocyte meiotic arrest: uptake and metabolism of hypoxanthine and adenosine by cumulus cell-enclosed and denuded oocytes

To analyze the potential mechanisms by which hypoxanthine and adenosine maintain meiotic arrest in mouse oocytes this study focused on: the uptake and metabolism of hypoxanthine and adenosine; the effect of inhibitors of inosine monophosphate (IMP) dehydrogenase on purine-mediated meiotic arrest; and the role of adenosine metabolism on the maintenance of meiotic arrest. Although the denuded oocyte can take up radiolabeled hypoxanthine and adenosine, an intact cumulus oophorus greatly augments uptake of these molecules (and/or metabolites). Both of these compounds were completely metabolized during incubation in vitro: hypoxanthine was apparently metabolized to uric acid and adenosine was metabolized to ADP; a small amount of each compound was also converted to inosine by cumulus cells and transferred to the oocyte. The IMP dehydrogenase inhibitors, bredinin and mycophenolic acid (MA), induced, in a dose-dependent manner, the resumption of maturation in cumulus cell-enclosed oocytes maintained in meiotic arrest by hypoxanthine but had no effect on denuded oocytes. MA did not induce maturation when meiotic arrest was maintained by guanosine. Nor did MA alter the uptake of hypoxanthine by cumulus cell-enclosed oocytes. The poorly metabolized analog of adenosine, 2-chloroadenosine, was as effective as adenosine in its synergistic action with hypoxanthine in maintaining meiotic arrest. It is concluded that hypoxanthine and adenosine are metabolized within the oocyte-cumulus cell complex; xanthyl and/or guanyl compounds are produced by oocyte-cumulus cell complexes in the presence of hypoxanthine and play an important role in the maintenance of meiotic arrest; and adenosine need not be metabolized to act synergistically with hypoxanthine in maintaining meiotic arrest.     

Protein kinase C modulators influence meiosis kinetics but not fertilizability of mouse oocytes.

The role of protein kinase C (PKC) in the successive steps of mouse oocyte meiotic process was investigated. We have used either OAG, an analog of diacylglycerol, or mezerein, a nonphorbol ester diterpene, less tumor promoting than phorbol esters, as PKC activators, and staurosporine as PKC inhibitor. Cumulus-free oocytes were cultured in minimum essential medium with each of these PKC modulators and maturation stages were screened every two hours until the end of the process. Both PKC activators prevented GVBD at each tested dose for 4 hr (OAG) and 8 hr (mezerein), and decreased the frequencies of PB oocytes. The inhibitory effects of both activators were dose dependent and reversible. The addition of OAG to the culture medium after GVBD occurrence (i.e., after 4 hrs) did not affect PB extrusion whereas similar addition of mezerein significantly decreased the frequency of PB oocytes. Inhibition of PKC by staurosporine accelerated GVBD and increased the frequency of PB extrusion. When staurosporine was added after GVBD, PB extrusion occurred earlier but PB oocyte frequency was not increased. Fertilizability was not affected when oocyte maturation occurred in the presence of any of these substances despite the delay in maturation process. These results clearly indicate that the PKC pathway is involved in mouse oocyte meiotic process: activation of the enzyme would arrest meiotic process whereas its inhibition would participate in meiosis induction.     

雷公藤多甙对小鼠卵母细胞成熟和体外受精的影响

采用超排卵技术研究雷公藤多甙（GTW）对小鼠卵母细胞的成熟和体外受精以及脏器等的影响,GTW对小鼠卵母细胞生发泡破裂没有影响,但可以抑制卵母细胞第一极体的释放,影响卵母细胞的存活率并可降低体外受精率和超排卵的卵母细胞数量。GTW可以破坏卵母细胞成熟,降低卵母细胞的体外受精能力,影响小鼠的正常生殖功能。     

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.     

In vitro inhibition of oocyte nuclear maturation in the bovine

Bovine follicular oocytes (N = 5991) were exposed to an analog of cyclic adenosine 3',5'-monophosphate (cAMP), dibutyryl cyclic AMP (db-cAMP) (2.5, 5, and 10 mM), the phosphodiesterase inhibitor isobutyl methyl xanthine (IBMX, 0.2 mM), or the purine, hypoxanthine (0.5, 1.0, 2.0 mM), and the nucleoside, adenosine (0.05, 0.1, 0.2 mM), for 6 or 21 h to assess their effects on oocyte nuclear maturation. Potential effects of bovine follicular fluid (BFF) were also evaluated after different preculture washing procedures. In a separate experiment, denuded oocytes were used to study the effect of cumulus removal on meiotic inhibition. Db-cAMP decreased the frequency of germinal vesicle breakdown (GVBD) at 6 h (88% for control and 51%, 45%, and 32% for 2.5, 5, and 10 mM concentrations, respectively). IBMX had a comparable effect with only 41% of the oocytes resuming meiosis. Hypoxanthine and adenosine alone or in combinations also decreased the number of oocytes undergoing GVBD at 6 h. Only 22% GVBD occurred when the combined highest concentration of both substances was used compared to 88% in controls. If oocytes were incubated in 50% BFF after a wash in control medium during processing, 56% would resume meiosis at 6 h vs. 35% if the washing procedure included inhibitors (db-cAMP + IBMX). Total BFF (100%) during washing and maturation prevented 72% of the oocytes from resuming meiosis. Db-cAMP and IMBX combined or BFF also inhibited meiotic resumption of denuded oocytes. At 21 h, the inhibitory effects were less pronounced, with most oocytes only delayed in completing the first reduction division.(ABSTRACT TRUNCATED AT 250 WORDS)     

Phosphatidylinositol 3-kinase and Akt participate in the FSH-induced meiotic maturation of mouse oocytes

Phosphatidylinositol 3-kinase (PI3K) is known to play critical roles in signal transduction processes related to a variety of cellular activities. In the present study, we investigated the role of PI3K during meiotic maturation in mouse oocytes using a specific inhibitor, LY294002. In follicle-stimulating hormone (FSH)-induced reversal of hypoxanthine-mediated meiotic arrest of cumulus oocyte complexes (COCs), LY294002 suppressed germinal vesicle breakdown (GVBD), first polar body (PB1) emission, and cumulus expansion. To examine the effect of LY294002, denuded oocytes (DOs) were cultured in medium containing follicular fluid meiosis-activating sterol (FF-MAS) since absence of gonadotropin receptors in oocytes has been reported and FSH did not stimulate meiotic maturation of DOs in the presence of hypoxanthine. In FF-MAS-induced maturation of DOs, LY294002 suppressed PB1emission, but not GVBD. In spontaneous gonadotropin-independent oocyte maturation, LY294002 had no effect on COCs and DOs. Akt/protein kinase B, a serine-threonine kinase, is a key downstream effector of the PI3K pathway. Therefore, we also examined the distribution of Akt during FSH-induced meiotic maturation. The distribution of Ser(473) phosphorylated Akt was similar to the localization of microtubules, while Thr(308) phosphorylated Akt was present in the pericentriolar materials (PCM) in metaphase I (MI) and II (MII) oocytes. LY294002 decreased the amount of Thr(308) phosphorylated Akt to very low to undetectable levels in MI and MII oocytes. Ser(473) phosphorylated Akt showed aberrant distribution and very low to undetectable levels of expression in LY294002-treated MI and MII oocytes, respectively. These results suggest that PI3K and Akt participate in mouse meiotic maturation.     

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.     

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.     

Protein synthesis inhibitors prevent both spontaneous and hormone-dependent maturation of isolated mouse oocytes

The present study was carried out to examine the role of protein synthesis in mouse oocyte maturation in vitro. In the first part of this study, the effects of cycloheximide (CX) were tested on spontaneous meiotic maturation when oocytes were cultured in inhibitor-free medium. CX reversibly suppressed maturation of oocytes as long as maturation was either initially prevented by the phosphodiesterase inhibitor, 3-isobutyl-1-methyl-xanthine (IBMX), or delayed by follicle-stimulating hormone (FSH). In the second part of this study, the actions of protein synthesis inhibitors were tested on hormone-induced maturation. CEO were maintained in meiotic arrest for 21-22 h with hypoxanthine, and germinal vesicle breakdown (GVB) was induced with follicle-stimulating hormone (FSH). Three different protein synthesis inhibitors [CX, emetine (EM), and puromycin (PUR)] each prevented the stimulatory action of FSH on GVB in a dose-dependent fashion. This was accompanied by a dose-dependent suppression of 3H-leucine incorporation by oocyte-cumulus cell complexes. The action of these inhibitors on FSH- and epidermal growth factor (EGF)-induced GVB was next compared. All three drugs lowered the frequency of GVB in the FSH-treated groups, below even that of the controls (drug + hypoxanthine); the drugs maintained meiotic arrest at the control frequencies in the EGF-treated groups. Puromycin aminonucleoside, an analog of PUR with no inhibitory action on protein synthesis, had no effect. The three inhibitors also suppressed the stimulatory action of FSH on oocyte maturation when meiotic arrest was maintained with the cAMP analog, dbcAMP.(ABSTRACT TRUNCATED AT 250 WORDS)