Activation of protein kinase C induces cortical granule exocytosis in a Ca2+-independent manner, but not the resumption of cell cycle in porcine eggs

The effects of protein kinase C (PKC) activation on meiotic resumption and cortical granule (CG) exocytosis as well as its dependence on Ca²⁺ in porcine eggs matured in vitro were studied. Cortical granule release was judged by both confocal laser microscopy after the eggs were labeled with fluorescein isothiocyanate-peanut agglutinin (FITC-PNA) and electron microscopy. Meiotic resumption and pronuclear formation were observed after eggs were stained with acetic orcein. When eggs were treated with PKC activators, 1-oleyl-2-acetyl-glycerol (OAG) or phorbol 12-myristate 13-acetate (PMA), the pronuclear formation percentage was significantly lower than that of Ca²⁺ ionophore A23187-treated group, but not statistically different from that in negative control group (P > 0.05), and most of the eggs were still arrested at metaphase II stage, suggesting that PKC activation does not induce the resumption of meiosis and pronuclear formation. In contrast, PKC activation induced 89.1% to 100% of the eggs completely or partially released their CG in different groups, not statistically different from A23187-treated group, and this effect could be overcome by PKC inhibition. When the intracellular free Ca²⁺ was chelated with acetoxymethal ester form of 1,2-bis(0-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid (BAPTA-AM), and then treated with PMA or OAG in Ca²⁺-free medium, the proportions of eggs with CG release were 90.9% and 78.1%, respectively, not statistically different from the above-treated groups, suggesting that CG exocytosis induced by PKC activation is independent of Ca²⁺ rise. The results indicate that different events of porcine egg activation may be uncoupled from one another.     

Release of tissue-type plasminogen activator by activated rat eggs and its possible role in the zona reaction.

The resumption of meiosis results in synthesis of tissue-type plasminogen activator (tPA) in the rat and mouse oocytes (Haurte et al., Cell 43:551-558, 1985). The present study demonstrates that freshly ovulated rat oocytes released their tPA into the surrounding medium upon in vitro activation by sperm penetration or treatment with a calcium ionophore. The presence of a neutralizing monoclonal anti-tPA antibody during in vitro activation by the calcium ionophore inhibited the activation-induced zona hardening and also preserved the ability of the oocyte to be penetrated by sperm subsequent to activation. Rat oocytes undergo zona hardening during in vitro maturation in the absence of serum, presumably as a result of spontaneous cortical granule release, based on findings in mice and hamsters. In the present study, the anti-tPA antibody prevented the zona hardening and enhanced partition by spermatozoa of rat oocytes that were matured in vitro without serum. Collectively, the observations reported have suggest a possible role of tPA released during the cortical granule reaction in the zona reaction, which contributes to the block to polyspermy.     

蛋白激酶C在小鼠卵母细胞体外成熟和受精中的作用

蛋白激酶是一类重要的丝／苏氨酸蛋白激酶。本实验以小鼠为实验动物,研究了PKC在卵母细胞体外成熟、活化和受精中的可能作用,及两种PKC亚型在卵母细胞中的定位。PKC激活剂PMA可以阻止GV期卵母细胞在体外恢复减数分裂,该作用可被PKC抑制剂CalphostinC抵消,但不能被PLCγ抑制剂U73122或PKCδ专一性抑制剂Rottlerin所克服。Western印迹显示PKCα和βI在卵母细胞发育过程中恒量表达。激光共聚焦显微术研究发现,受精或受到活化刺激后PKCα转位到卵母细胞膜上,同时皮质颗粒排放,说明PKCα可能参与调节卵皮质反应。本实验首次在小鼠中研究了PLCγ与受精的关系,发现不存在PKC对PLCγ的正反馈调节。此外,本研究还对小鼠卵巢中对PKCα和βI进行了蛋白定位研究。     

Role of roscovitine and IBMX on kinetics of nuclear and cytoplasmic maturation of bovine oocytes in vitro

The 3-isobutyl-1-methylxanthine (IBMX) is able to prevent resumption of meiosis by maintaining elevated cyclic AMP (cAMP) concentrations in the oocyte, and roscovitine, a purine known to specifically inhibit MPF kinase activity, maintains bovine oocytes at the germinal vesicle (GV) stage. The present study was conducted to analyze whether cytoplasmic maturation (examined by the pattern of cortical granule (CG) distribution) of bovine oocytes is improved during meiotic arrest with IBMX and roscovitine. Oocytes were matured in vitro in a 10% Knockout(SR) supplemented TCM-199 medium (Control) with either 0.5 mM IBMX or 25 microM roscovitine (ROSC). Oocytes were stained with fluorescein isothiocyanate conjugated Lens culinaris agglutinin (FITC-LCA) for CG evaluation and with Hoechst 33342 for nuclear stage assessment. At 16 h of culture, the percentage of oocytes remaining in the GV stage was higher (P < 0.05) in the ROSC group (32.41%) compared with the Control and IBMX groups (8.61% and 9.73%, respectively). At 24 h of culture, progression of meiosis to M II stage was retarded (P < 0.05) in the ROSC group (24.05%) compared to the Control (60.20%), whereas the IBMX group (33.88%) showed no significant difference to the other two groups. At 16 h of maturation, the proportion of oocytes with CG in clusters (immature cytoplasm) was similar between the groups, as was the percentage of peripheral CG (mature) at 24 h of maturation. The results of the present study demonstrated that the meiotic inhibitors IBMX and roscovitine delay the progression of nuclear maturation without affecting cytoplasmic maturation, assessed by the analysis of CG repositioning.     

Protein kinase C is required for the disappearance of MPF upon artificial activation in mouse eggs

The aim of the present study was to investigate the implication of protein kinase C (PKC) in the mouse egg activation process. We used OAG (1-oleoyl-2-acetyl-sn-glycerol) as a PKC activator, calphostin C as a specific PKC inhibitor, and the calcium ionophore A23187 as a standard parthenogenetic agent. The exposure of zona-free eggs to 150 μM or 50 μM OAG for 10 min resulted in meiosis II completion in ∼80% of instances. By contrast, at a lower concentration (25 μM), the PKC stimulator was ineffective as parthenogenetic agent. Shortly after the application of 150 μM OAG, the cytosolic Ca²⁺ concentration ([Ca²⁺]_i) increased transiently in all the eggs examined, whereas after the addition of 50 μM OAG, [Ca²⁺]_i remained unchanged for at least 20 min. During this period, the activity of M-phase promoting factor (MPF) dramatically decreased and most of the eggs entered anaphase except when the PKC was inhibited by calphostin C. Similarly, MPF inactivation and meiosis resumption were prevented in calphostin C-loaded eggs following treatment with A23187, even though the ionophore-induced Ca²⁺ signalling was not affected. Taken together, our results indicate that stimulation of PKC is a sufficient and necessary event to induce meiosis resumption in mouse eggs and strongly suggest that, in this species, the mechanism by which a transient calcium burst triggers MPF inactivation involves a PKC-dependent pathway. Mol. Reprod. Dev. 48:292–299, 1997. © 1997 Wiley-Liss, Inc.     

Neomycin, an inhibitor of phosphoinositide hydrolysis, inhibits the resumption of bovine oocyte spontaneous meiotic maturation.

The possibility that the intracellular signals generated upon phosphoinositide hydrolysis are involved in regulating bovine oocyte spontaneous meiotic resumption was investigated. Oocytes were mass-harvested and cultured in 2A-BMOC medium supplemented with 0.5% bovine serum albumin in the presence or absence of neomycin (an inhibitor of phosphoinositide hydrolysis) or phorbol myristate acetate (an activator of protein kinase C). The role of intracellular calcium was examined by preloading with BAPTA/AM (a calcium chelator) prior to culture. Meiotic maturation was scored cytogenetically. 1) Neomycin induces an irreversible inhibition of germinal vesicle breakdown which does not exceed 60% and is apparent at concentrations of 5 mM or above. Progression of meiosis past metaphase I is inhibited at concentrations of 2.5 mM or above. The full effect of neomycin is only apparent if it is presented to the oocytes within 3 h of follicular release, although germinal vesicle breakdown is not observed until 9 h culture under control conditions. 2) PMA alone has negligible effect on germinal vesicle breakdown, but it acts synergistically with 2 mM IBMX to inhibit this process. PMA has a dual effect on the progression of meiosis past metaphase I: 1 nM PMA has a stimulatory effect while 1 microM PMA blocks the ability of oocytes to reach anaphase I or beyond. These observations are not found with a non-tumor-promoting phorbol ester. 3) Spontaneous meiotic resumption is not significantly affected in the absence of added exogenous calcium. However, oocytes preloaded with BAPTA/AM exhibit a dose-dependent inhibition of germinal vesicle breakdown, even in the presence of extracellular calcium.(ABSTRACT TRUNCATED AT 250 WORDS)     

Plasma membrane block to sperm entry occurs in mouse eggs upon parthenogenetic activation

The ability of parthenogenetically activated mouse eggs to establish a plasma membrane (PM) block to sperm penetration was studied. Zona-free eggs preloaded with Hoechst 33342 were activated by exposure to ethanol or OAG (1-oleoyl-2-acetyl-sn-glycerol) and inseminated after different periods. Eggs challenged with sperm at 30- or 60-min postactivation displayed a fertilization frequency significantly lower than that of control eggs. Conversely, when insemination was carried out at 120-min postactivation, the proportion of fertilized eggs was equivalent to that observed in the control group. Moreover, we report that when the eggs were induced to resume meiosis without any notable loss of CGs (egg exposure to OAG at 100 μM external Ca²⁺ or to heat shock), a normal ability to be penetrated was recorded at 30-min postactivation. Similar behaviour was exhibited by eggs that underwent a CG exocytosis close to that triggered by sperm in absence of nuclear activation (microinjection of inositol 1,4,5-trisphosphate into the egg at 1 μM cytosolic concentration). Present data support the conclusion that parthenogenetically activated mouse eggs are capable of a transitory PM block response that requires both CG exocytosis and meiosis resumption to occur. © 1994 Wiley-Liss, Inc.     

Changes in the distribution of mouse oocyte cortical granules and ability to undergo the cortical reaction during gonadotropin-stimulated meiotic maturation and aging in vivo

Mouse oocyte cortical granule (CG) activation and distribution were investigated during in vivo meiotic maturation to determine the onset of competence to undergo the cortical reaction, which is considered responsible for the block to polyspermy. In the present study, the resumption of oocyte maturation was stimulated by hCG administration. Competence to undergo the cortical reaction (assessed with calcium ionophore A23187) was undetectable (0% loss) in germinal vesicle-stage oocytes 0.5 h after hCG administration. When germinal vesicle breakdown and metaphase I had taken place (3 and 7 h post hCG, respectively), approximately 30% CG loss was observed. Maximal (A23187-inducible) levels of CG loss, 67% and 72%, were present at 10 and 13 h, respectively, during metaphase II. Cortical granule distribution changed dramatically during metaphase I, polar body formation, metaphase II, and post-ovulatory aging in vivo. A stable metaphase II distribution was present from 13 to 18 h. After 24 and 32 h, 28% and 83% of the eggs, respectively, exhibited major alterations in the cortical distribution of CGs, some of which did not appear to be susceptible to release by A23187. These data support the hypothesis that just before ovulation the egg cortex completes the development of its normal structure and physiological competence, which are maintained for only a brief period of time afterward. The implications are discussed for normal fertilization and polyspermy in mammals, including humans.     

Quantification and distribution of equine oocyte cortical granules during meiotic maturation and after activation

In vitro fertilization (IVF) is being routinely used in humans and several domestic species, however, limited success has been achieved in the horse. Although immature equine oocytes are capable of completing meiosis in vitro, subsequent fertilization, and embryonic development of those oocytes are questionable. The lack of development of these oocytes could be attributed to an impaired cytoplasmic maturation. In the horse, the study of oocyte cytoplasmic maturation and post-fertilization development has been hindered by the lack of progress in IVF. In mammalian oocytes, migration of cortical granules (CG) has been used as an important criterion to evaluate cytoplasmic maturation. The aim of this study was to describe and quantify the CG distribution of equine oocytes during in vitro meiotic maturation and to assess activation of oocytes with calcium ionophore based upon fluorescein isothiocyanate (FITC)-labeled Lens culinaris agglutinin (LCA) and laser confocal microscopy. The results of this study indicate that CG are distributed throughout the cytoplasm of oocytes at the germinal vesicle (GV) stage (immature). As maturation proceeds, a progressive centripetal migration of CG to the oocyte cortex occurs with the formation of a monolayer adjacent to the plasma membrane starting by the end of a 30 hr incubation period and increasing significantly after 36 hr. After activation, significant reduction in the number of CG was observed (P < 0.001) suggesting that oocytes cultured under the present conditions possess the ability to release CG in response to the elevation of intracellular free calcium.     

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.     

Activation of pig oocytes using nitric oxide donors

Nitric oxide (NO) plays an important role in intracellular signaling, but its role during the activation of mammalian oocytes is little understood. In our study, in vitro matured pig oocytes were cultured with NO-donors-S-nitroso-N-acetylpenicillamine (SNAP) or sodium nitropruside (SNP). These treatments were able to induce parthenogenetic activation of pig oocytes matured in vitro. The specificity of this effect was confirmed by the activation of oocytes by exogenous endothelial nitric oxide synthase (eNOS) microinjected in the oocyte with its activator calmodulin. Relatively long exposure (10 hr) is needed for activation of pig oocytes with 2.0 mM SNAP. An active NOS is necessary for the NO-dependent activation of pig oocytes because NOS inhibitors L-NMMA or L-NAME are able to inhibit activation of oocytes with NO-donor SNAP. On the basis of our data, we conclude that the NO-dependent activating stimulus seems inadequate because it did not induce the exocytosis of cortical granules. Also, the cleavage of parthenogenetic embryos was very low, and embryos did not develop beyond the stage of eight blastomeres.     

Inhibitory effect of the intrauterine infusion of phorbol 12-myristate 13-acetate and 1-oleoyl-2-acetylglycerol on the decidual cell reaction in rats

In rats, prostaglandins (PGs) have an essential role in the decidual cell reaction (DCR), but their mechanism of action at the cellular level within the endometrium is at present uncertain. To test the hypothesis that both protein kinase C activation and calcium mobilization mediate the action of PGs within the endometrium during decidualization, the phorbol ester phorbol 12-myristate 13-acetate (PMA) or the synthetic diacylglycerol 1-oleoyl-2-acetyl-glycerol (OAG), activators of protein kinase C in vitro, and the calcium ionophore A23187, which causes calcium mobilization, were infused, alone or combined, into the uterine lumen of rats sensitized for the DCR. The results obtained indicate that both PMA and OAG have an inhibitory effect on the DCR in rats. The calcium ionophore A23187, although having no apparent effect by itself, had a synergistic effect with PMA, but not with OAG, in inhibiting the DCR. The intrauterine infusion of PMA and/or A23187 had no effect on the increase in endometrial vascular permeability (EVP), which precedes the DCR. The inhibitory effect of PMA or PMA plus A23187 on decidualization is probably not mediated by a decrease in uterine PG synthesis, as assessed by the measurement of uterine prostaglandin E concentrations at various times during the intraluminal infusion. These data suggest that activation of protein kinase C can modulate the DCR.     

The Role of Extracellular Ca2+ in the Activation of Pectinaria Oocytes

Several events are associated with fertilization in oocytes. Two such events are an increase in cytoplasmic Ca²⁺ concentration and the resumption of meiosis. Oocytes of the marine annelid, Pectinaria gouldii , are in metaphase I arrest when they are spawned. In this report we investigate the relationship between Ca²⁺ and resumption of meiosis in this species. Meiosis in unfertilized oocytes could be re-initiated with the divalent cation ionophore, A23187. Oocytes in Ca²⁺ free sea water, however, did not resume meiosis in the presence of the ionophore. Furthermore, it was observed that Ca²⁺ must be present for at least 15 min following ionophore treatment for meiosis to resume. These results suggest that extracellular Ca²⁺ is required for the re-initiation of meiosis in this species.     

Requirement of sperm‐oocyte plasma membrane fusion for establishment of the plasma membrane block to polyspermy in human pronuclear oocytes

We investigated whether the incorporation of the sperm membrane into the oolemma contributes to the human plasma membrane block to polyspermy. We used zona pellucida–free oocytes fertilized by intracytoplasmic sperm injection (ICSI) or activated by parthenogenetic activation. Only two of the 35 pronuclear oocytes fertilized by spermatozoa (control) demonstrated one single penetrating spermatozoa. In contrast, the majority of ICSI and parthenogenetically activated pronuclear oocytes were penetrated with an average of three spermatozoa per oocyte. The number of fused and binding spermatozoa of ICSI and parthenogenetically activated oocytes were significantly higher than in control oocytes (3.5 ± 0.6 and 4.3 ± 0.6 for ICSI; 3.0 ± 0.3 and 3.8 ± 0.4 for activated and 0.2 ± 0.1 and 0.6 ± 0.2 for controls, respectively, P < 0.01). Furthermore, the cortical granules were released from the cortex of ICSI and calcium ionophore‐puromycin‐activated pronuclear oocytes to the same extent as that of pronuclear oocytes fertilized by spermatozoa. These results suggest that the establishment of the plasma membrane block to sperm penetration in the human oocyte may require a fusion process between sperm and oocyte plasma membranes. Mol. Reprod. Dev. 52:183–188, 1999. © 1999 Wiley‐Liss, Inc.     

Roles of protein kinase A and C in spontaneous maturation and in forskolin or 3-isobutyl-1-methylxanthine maintained meiotic arrest of bovine oocytes

Four hypotheses were tested using isolated bovine oocytes. (1) Cumulus oocyte complexes (COCs) or denuded oocytes (DOs) were cultured with the protein kinase A (PKA) inhibitor, H-89, to test if meiotic arrest induced by forskolin or IBMX was due to cAMP-stimulated PKA activity or nonspecific effects of these cAMP elevators. (2) COCs were cultured with a protein kinase C (PKC) stimulator (PDDβ) or inhibitor (GF109203x) to test if PKC modulation altered oocyte maturation. (3) COCs were prestimulated for 15 min with (a) PDDβ followed by cotreatment with forskolin, or (b) with H-89 or H-7 followed by cotreatment with GF109203x, to test for interaction between the PKA and PKC signal transduction pathways. (4) H-89 was added to spontaneously maturing COCs at intervals 0–18 hr to test if H-89 interfered with the transition between meiosis I and II. The results were as follows: H-89 interfered with forskolin or IBMX arrested oocytes in a dose-response manner (IBMX ED₅₀ = 41 μM for COCs; forskolin ED₅₀ = 9 μM for denuded oocytes). Prestimulation with PKC induced meiotic resumption in COCs in spite of the presence of forskolin [PDDβ followed by PDDβ + forskolin: 41–47% germinal vesicle (GV) oocytes; forskolin alone: 90–95% GV], while PKC inhibition induced meiotic arrest to a similar extent as forskolin (GF109230x, 85% GV; forskolin, 67–80% GV). Additionally, pretreatment of COCs with H-89 interfered with GF109203x induced arrest (41% vs. 90% GV, respectively). Finally, H-89 interfered with the timely progression of COCs from meiosis I and II. These results indicate that the PKA and PKC pathways can modulate the maturation of bovine oocytes in vitro. © 1996 Wiley-Liss, Inc.     

The role of protein kinase C in reorganization of the cortical cytoskeleton during the transition from oocyte to fertilization-competent egg.

Fertilization-competent amphibian eggs (metaphase II) are programmed to undergo an actin-myosin based contraction of the cortical cytoplasm (i.e., cortical contraction) in response to an elevation of intracellular-free calcium which accompanies fertilization. This ability to undergo cortical contraction is acquired within a few hours after the meiotically-arrested oocyte is triggered to resume meiosis by exposure to progesterone. This report examines the timing of changes in the contractile potential of the cortical cytoplasm as the oocyte becomes the egg, and in addition, the signal transduction events which induce these changes. We use the bisected oocyte system developed by Christensen et al. ('84; Nature 310: 150-151) to assess the changes in cortical potential during the meiotic resumption. Immediately after progesterone treatment (less than 5% of the way through the meiotic resumption) the cortex acquires the ability to form a contractile ring, an ability which gradually disappears during the meiotic resumption. Eighty percent of the way through the meiotic resumption the cortex of the hemisphere rapidly acquires the ability to undergo cortical contraction. In contrast, when bisected in a medium containing protein kinase C (PKC) agonists, the cortex of the hemisphere undergoes cortical contraction much earlier (i.e., 50% through the meiotic resumption). In addition, treatment of oocytes with PKC agonists alone can mimic the complete spectrum of changes in cortical potential induced by progesterone, suggesting that PKC has a role in reorganization of the cortical cytoskeleton which occurs as a normal response to progesterone. In support of this, antagonists of PKC block the progesterone-induced reorganization of the cortical cytoskeleton.     

Effect of different levels of intracellular cAMP on the in vitro maturation of cattle oocytes and their subsequent development following in vitro fertilization

Serum, gonadotrophins, growth factors, and steroid hormones stimulate the in vitro maturation (IVM) of competent oocytes, acting, directly or indirectly, upon the adenylate cyclase pathway to produce the intracellular messenger, cAMP. The intracellular levels of cAMP in cattle cumulus‐oocyte complexes (COC) were manipulated by adding to the collection and maturation media invasive adenylate cyclase (iAC), a toxin produced by the bacterium, Bordetella pertussis. High concentrations of iAC (1 or 5 μg/ml) in the maturation medium inhibited the resumption of meiosis, while low concentrations (0.1 or 0.01 μg/ml) resulted in high rates of maturation to the MII stage (92.6 ± 2.5 and 98.5 ± 1.4% respectively). The same low concentrations of iAC in the maturation medium resulted in rates of development to the blastocyst stage 8 days post insemination (30.1 ± 4.2 and 45.1 ± 3.9%, respectively), which were either not different, or significantly better, than those obtained after IVM in medium supplemented only with serum and gonadotrophins (36.1 ± 2.9%). Finally, the addition of 0.1 μg/ml iAC and 0.5 mM 3‐isobutyl 1‐methylxanthine (IBMX) in the collection medium significantly improved the blastocyst rate when IVM was performed in control medium or medium supplemented with 0.01 μg/ml iAC (31.9 ± 5.5 vs. 12.1 ± 1.6 and 45.5 ± 2.9 vs. 19.1 ± 2.3% respectively). It is concluded that the maintenance of an optimal intracellular concentration of cAMP before and during IVM ensures a high developmental competence of bovine oocytes matured in medium without serum and hormones. Mol. Reprod. Dev. 54:86–91,1999. © 1999 Wiley‐Liss, Inc.     

Induction and inhibition of meiotic maturation of follicle-enclosed porcine oocytes in vitro

Isolated porcine Graafian follicles which were explanted in vitro and maintained in organ culture were used as a test-system for the meiosis-inducing action of PMSG and hCG. The addition of either PMSG or hCG alone (10 or 20 IU/ml, respectively) to the culture medium was not effective, whereas the simultaneous administration of these hormones ($\text{15}\text{15}\text{IU/ml}$) induced resumption of meiosis in 90.3% ($\text{37}\text{41}$). The same hormone concentrations were used in a second series of experiments in which the inhibition and induction of meiosis of isolated oocytes were tested by transferring them into host follicles. In host follicles containing up to 12 foreign eggs, which were cultured in control media, meiosis was prevented in 86.0% of all oocytes ($\text{104}\text{121}$). By adding PMSG (15 IU/ml) simultaneously with hCG (15 IU/ml) to the medium, meiosis was induced in 95.0% of all oocytes ($\text{133}\text{140}$).The assumption is made that the signal initiating resumption of meiosis of the isolated and transferred oocytes is mediated by the follicular fluid, since intimate contact with the membrana granulosa of the host follicle was prevented by using a roller technique.     

Involvement of mitogen-activated protein kinase (MAPK) pathway in LH- and meiosis-activating sterol (MAS)-induced maturation in rat and mouse oocytes

Gonadotropic stimulation of meiotic resumption in mice is dependent upon mitogen-activated protein kinase (MAPK) activation in the somatic compartment of the follicle. By contrast, spontaneous resumption of meiosis is independent of MAPK activation. In view of the suggested role of meiosis-activating sterol (MAS) in oocyte maturation we have (i) compared MAPK activation in rat preovulatory follicles stimulated by LH or by accumulation of endogenous MAS by using an inhibitor of MAS conversion, AY9944; (ii) examined whether stimulation of meiosis by MAS is dependent upon MAPK activation using denuded oocytes (DO) of Mos- null mice (hereafter Mos(-/-)) with oocytes unable to activate MAPK. Rat preovulatory follicles responded to LH or AY9944 stimulation by MAPK activation. Inhibition of MAPK phosphorylation blocked both LH- and AY9944 triggered resumption of meiosis. In mouse cumulus-enclosed oocytes (CEOs) and DOs AY9944 stimulated GVB in wild-type and Mos(-/-) mouse CEOs cultured with hypoxanthine (Hx). Addition of MAS or AY9944 to mouse DOs cultured with Hx induced resumption of meiosis only in wild-type and Mos(+/-) oocytes, but they were ineffective in Mos(-/-) oocytes. The observed sluggish activation of MAPK induced by AY9944 in rat follicle-enclosed oocytes (FEO) may cause the delay in meiotic resumption in response to MAS and AY9944 stimulation. Further, it is incompatible with the suggested role of MAS as an obligatory mediator of LH in the induction of meiotic maturation. MAPK/MOS activation, whether in the somatic compartment or in denuded oocytes, is required for MAS- like LH-, FSH-, or EGF-induced resumption of meiosis.