Signaling pathways in ascidian oocyte maturation: effects of various inhibitors and activators on germinal vesicle breakdown

The Ascidiacea, the invertebrate chordates, includes three orders; the Stolidobranchia is the most complex. Until the present study, the onset of oocyte maturation (germinal vesicle breakdown) had been investigated in only a single pyurid (Halocynthia roretzi), in which germinal vesicle breakdown (GVBD) begins when the oocyte contacts seawater (SW); nothing was known about internal events. This study strongly suggests the importance of protein phosphorylation in this process. Herdmania pallida (Pyuridae) functions like H. roretzi; GVBD occurs in SW. Oocytes of Cnemidocarpa irene (Styelidae) do not spontaneously undergo GVBD in SW but must be activated. Herdmania oocytes are inhibited from GVBD by pH 4 SW and subsequently activated by mastoparan (G-protein activator), A23187 (Ca2+ ionophore) or dimethylbenzanthracene (tyrosine kinase activator). This requires maturation promoting factor (MPF) activity; cyclin-dependent kinase inhibitors roscovitine and olomoucine are inhibitory. It also entails dephosphorylation as demonstrated by the ability of the phosphatase inhibitor vitamin K3 to inhibit GVBD. GVBD is also inhibited by the tyrosine kinase inhibitors tyrphostin A23 and genistein, and LY-294002, a phosphatidylinositol-3-kinase inhibitor previously shown to inhibit starfish GVBD. LY-294002 inhibits strongly when activation is by mastoparan or ionophore but not when activated by dimethylbenzanthracene (DMBA). The DMBA is hypothesized to phosphorylate a phosphatase directly or indirectly causing secondary activation, bypassing inhibition.     

Acceleration of onset of oocyte maturation in vitro by luteinizing hormone

The purpose of this study was to analyze the effect of luteinizing hormone (LH) on the earliest stage of oocyte maturation - the stage of breakdown of the dictyate nucleus. Oocytes were isolated from the preovulatory follicles of adult, cyclic rats. They were incubated in culture medium with or without 10 μg/ml LH. The cultures were observed continuously for up to 3 hours. Analysis of the rate of disappearance of the germinal vesicle nucleolus revealed that LH accelerated the breakdown process. The median times of disappearance were 91.3 minutes without LH and 62.3 minutes with LH. This is in accord with earlier reports on enhancement of fertilizability of oocytes matured in vitro with LH. Thus, although oocytes mature spontaneously in culture, the maturation remains LH sensitive.     

Changes in germinal vesicle (GV) chromatin configurations during growth and maturation of porcine oocytes

Changes in germinal vesicle (GV) chromatin configurations during growth and maturation of porcine oocytes were studied using a new method that allows a clearer visualization of both nucleolus and chromatin after Hoechst staining. The GV chromatin of porcine oocytes was classified into five configurations, based on the degree of chromatin condensation, and on nucleolus and nuclear membrane disappearance. While the GV1 to 4 configurations were similar to those reported by previous studies, the GV0 configuration was distinct by the diffuse, filamentous pattern of chromatin in the whole nuclear area. Most of the oocytes were at the GV0 stage in the <1 and 1-1.9 mm follicles, but the GV0 pattern disappeared completely in the 2-2.9 and 3-6 mm follicles. As follicles grew, the number of oocytes with GV1 configurations increased and reached a maximum in the preovulatory follicles 4 hr post-hCG injection. During maturation in vivo, the number of GV1 oocytes decreased while oocytes undergoing GVBD increased. The percentage of oocytes with GV3 and GV4 configurations was constant during oocyte growth except at the 2-2.9 mm follicle stage, but these configurations disappeared completely after hCG injection. On the contrary, the in vitro maturing oocytes showed a large proportion of GV3 and GV4 configurations. There was no significant difference in distribution of chromatin configurations between the nonatretic and atretic follicles, and between oocytes with more than two layers of cumulus cells and those with less than one layer or no cumulus cells. Overall, our results suggested that (i) the GV0 configuration in porcine oocytes corresponded to the "nonsurrounded nucleolus" pattern in mice and other species; (ii) all the oocytes were synchronized at the GV1 stage before GVBD and this pattern might, therefore, represent a nonatretic state; (iii) the GV3 and GV4 configurations might represent stages toward atresia, or transient events prior to GVBD that could be switched toward either ovulation or atresia, depending upon circumstances; (iv) the in vitro systems currently used were not favorable for oocytes to switch toward ovulation (or final maturation); (v) the number of cumulus cells was not correlated with the chromatin configuration of oocytes, indicating that the beneficial effect of cumulus cells on oocyte maturation and development may simply be attributed to their presence during in vitro culture.     

Signaling pathways in ascidian oocyte maturation: the role of cyclic AMP and follicle cells in germinal vesicle breakdown

Many ascidian oocytes undergo 'spontaneous' germinal vesicle breakdown (GVBD) when transferred from the ovary to normal pH 8.2 sea water (SW); however, low pH inhibits GVBD, which can then be stimulated while remaining in the low pH SW. Oocytes of Boltenia villosa blocked from GVBD by pH 4 SW undergo GVBD in response to permeant cyclic AMP (8-bromo-cyclic AMP), phosphodiesterase inhibitors (isobutylmethylxanthine and theophylline) or the adenylyl cyclase activator forskolin. This suggests that cAMP increases during GVBD. Removal of the follicle cells or addition of a protease inhibitor inhibits GVBD in response to raised pH but not to forskolin, theophylline or 8 bromo-cAMP. Isolated follicle cells in low pH SW release protease activity in response to an increase in pH. These studies imply that the follicle cells release protease activity, which either itself stimulates an increase in oocyte cAMP level or reacts with other molecules to stimulate this process. Studies with the mitogen-activated protein (MAP) kinase inhibitors U0126 and CI 1040 suggest that MAP kinase is not involved in GVBD. The Cdc25 inhibitor NSC 95397 inhibits GVBD at 200 n m in a reversible manner.     

褪黑素抑制小鼠卵母细胞的体外成熟

目的:探讨褪黑素(MT)对小鼠卵母细胞的体外成熟的影响.方法:通过卵母细胞自发、次黄嘌呤(HX)阻滞和激素诱导成熟三种体外培养模型研究了褪黑素(MT)对小鼠卵母细胞体外成熟的影响.结果:①0.1 g/L、0.02g/L、0.004 g/L及0.0008 g/L浓度的MT均能显著抑制小鼠卵丘卵母细胞复合体(CEOs)自发成熟过程中第一极体(PB1)的释放(P＜0.01);②动力曲线分析表明,MT对自发成熟的CEOs的GVBD和PB1有显著的推后作用,与对照组相比,处理组的GVBD和PB1分别被推后8～10 h和3～4 h;③0.1 g/L和0.02 g/L两有效浓度的MT还能显著抑制促性腺激素(FSH)诱导的HX阻滞的CEOsGVBD的发生(P＜0.05),对PB1的排出虽有一定的抑制作用,但没有统计学意义;④MT和次黄嘌呤(HX)对CEOs的自发成熟有协同抑制作用(P＜0.01),但在裸卵(DO)自发成熟的阻滞中没有协同效应.结论:MT是调节哺乳动物卵母细胞成熟的重要激素之一,其作用机制可能是通过卵丘细胞实现的.     

褪黑素对FSH诱导的小鼠卵母细胞体外成熟的影响

通过次黄嘌呤(HX)阻滞、FSH诱导体外培养模型研究了褪黑素(MT)对小鼠卵母细胞成熟的影响,探讨褪黑素(MT)是否影响小鼠卵母细胞的体外成熟。0.1mg/mL和0.02mg/mL两有效浓度的MT能显著抑制促性腺激素(FSH)诱导的HX阻滞的CEOsGVBD的发生(P<0.05),对PBl的排出虽有一定的抑制作用,但没有统计学意义;MT和次黄嘌呤(HX)对CEOs的自发成熟有协同抑制作用(P<0.01),但在裸卵(DO)自发成熟的阻滞中没有协同效应。MT是调节哺乳动物卵母细胞成熟的重要激素之一,其作用机制可能是通过卵丘细胞实现的。     

Movement and dissolution of the nucleus (germinal vesicle) during Rana oocyte meiosis: Effect of demecolcine (Colcemid) and centrifugation

Demecolcine (Colcemid; DE), a colchicine derivative, augmented meiosis reinitiation by progesterone in the follicle-enclosed oocyte of the frog, Rana pipiens. Whereas DE treatment alone had a minor stimulatory effect on germinal vesicle dissolution (GVD), this treatment elicited significant germinal vesicle movement (GVM) as evidenced by translocation of the GV to the oocyte surface. The effects of DE on GVM and progesterone-induced GVD were also elicited in oocytes lacking follicle cells or other follicle wall components (type IV follicles), indicating that DE has a direct action on the oocyte itself. DE alone did not alter oocyte membrane voltage (V_m), resistance (R_m), or current (I_m) and did not interfere with the changes in these parameters usually elicited by progesterone. After 5 hr incubation of follicle-enclosed oocytes with either DE or progesterone, or combinations of both, the GV could be moved to the animal pole surface with less centrifugal force compared to control follicles. This result suggests that a decrease in ooplasmic viscoelasticity is induced by progesterone, which is mimicked by DE before GVM or GVD normally begins. The results presented here support the idea that DE-sensitive oocyte components such as microtubules are involved in the process of steroid-induced meiosis. These findings provide a physiological basis for future studies of cytoskeletal involvement in the events of meiosis.     

Effect of chilling on porcine germinal vesicle stage oocytes at the subcellular level

The potential subcellular consequence of chilling on porcine germinal vesicle (GV) stage oocytes was examined. Prior to in vitro maturation (IVM), Cumulus-oocyte complexes (COCs) freshly collected from antral follicles (3–6 mm in diameter) were evenly divided into four groups and immediately incubated in PVA-TL-HEPES medium at the temperature of 39 °C (control group), 23 °C (room temperature), 15 °C and 10 °C for 10 min, respectively. Following 42 h of IVM at 39 °C, the survival rates were examined. There was no significant difference between the survival rate of 23 °C chilled group and control group (77.92 and 91.89%), but the survival rate of 15 and 10 °C chilled group were significantly decreased (46.34 and 4.81%, P < 0.01). A further experiment on15 °C group showed that most oocytes died from 2 to 4 h of IVM. In order to investigate the effects of chilling on oocytes at the subcellular level, the control and 15 °C chilled group COCs fixed at different time points of the IVM cultures (2, 2.5, 3, 3.5 and 4 h of IVM) were prepared for transmission electron microscope (TEM) observation. As the result, compared with the control group, there were two significant changes in the ultrastructural morphology of 15 °C treatment group: (1) dramatic reduction of heterogeneous lipid, (2) disorganized mitochondria–endoplasmic reticulum–lipid vesicles (M–E–L) combination. These results indicate that 15 °C is a critical chilling temperature for porcine GV stage oocyte and the alteration of cellular chemical composition and the destruction of M–E–L combination maybe responsible for chilling injury of porcine oocyte at this stage.     

Sperm penetration into immature mouse oocytes and nuclear changes during maturation: an EM study

The ultrastructure of oocyte and sperm nuclei was studied in mouse ovarian oocytes inseminated in vitro and cultured for 1 1/2 and 3 h in a medium containing dbcAMP or lacking the maturation inhibitor. In oocytes blocked at the germinal vesicle (GV) stage, certain maturation-linked changes were noted. Sperm apposition and sperm-oocyte fusion were similar to that during fertilization of ovulated oocytes. The sperm nucleus and its nuclear envelope remained intact after penetrating into the ovarian oocyte. One and a half h after removal of the drug (time 0 of maturation) the germinal vesicle (GV) and sperm nucleus remained intact. In oocytes maturing for 3 h, the nuclear envelopes of the GV and sperm nucleus had fragmented. The NE of the oocyte formed quadruple membranes while the NE of the sperm remained as flat vesicles. Oocyte chromatin condensed to form chromosomes, whereas at the same time the sperm chromatin was in the process of decondensation and was surrounded by fragments of the sperm NE. The sperm chromatin, composed of DNA complexed with protamines, consisted of thin fibrils; the individual fibrils measured 3.8 nm in diameter. Near the penetrated spermatozoa only occasional Mts were detected which were not related to the proximal centriole which was recognizable in the neck-piece of the flagellum. Thus in mouse oocytes the introduced sperm centriole is not capable of behaving as a centrosome and organizing microtubules in the form of an aster.     

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.     

Study of newly synthesized proteins during bovine oocyte maturation in vitro using image analysis of two-dimensional gel electrophoresis

To investigate protein synthesis during bovine oocyte maturation in vitro, oocytes were put in culture with 35S-methionine for 4 hr periods from time zero to 28 hr. Pools of 10 oocytes were then prepared for two-dimensional gel electrophoresis (2-DE). For each time interval, three gels were obtained, digitalized, and analyzed to detect proteins. Then, the gel containing the most proteins was chosen as the reference gel and compared with the others. An averaged gel was created with proteins present in at least two gels of the three. Our results indicate that the rate of protein synthesis is higher at the beginning of maturation until the appearance of metaphase I (MI, 8-12 hr) and then it decreases and stays relatively constant. Percentages of initial proteins (0-4 hr) and remaining present during the progression decrease progressively from 100% to 53%. In contrast, when we compare proteins synthesized from the 4 to 8 hr period with proteins from the 8 to 12 or the 12 to 16 hr intervals, percentages of overall protein matching are stable with values of 81 and 79%, respectively. Comparison of proteins from 20 to 24 hr with proteins from 16 to 20 or 24 to 28 hr intervals also gives stable percentages of overall protein matching with values of 83 and 84%, respectively. Furthermore, a higher number of new proteins is observed at 4-8 hr (n=130) and 16-20 hr (n=136) of maturation. Thus, three major patterns of protein synthesis were observed during bovine oocyte maturation in vitro: one at the beginning of maturation (0-4 hr), another one in the middle (4-16 hr), and the last one after the completion of MI stage (16-28 hr).     

卵母细胞的生发泡移植

生发泡(germinal vesicle,GV)移植到去核的GV期卵母细胞后,获得重构卵,重构卵在体外能成熟,受精和进行胚胎发育。GV移植到去核的第二次减数分裂中期(metaphase Ⅱ,MII)卵母细胞后,重构卵能发生GV破裂,但难以排出第一极体。GV移植后,通过连续核移植,重构合子具有发育到终期的能力。GV移植为研究卵母细胞的发育提供了一种重要工具。     

Inability of exogenous luteinizing hormone to accelerate maturation of oocytes from gonadotrophin-treated immature rats

Immature rats, aged 27 days, were stimulated to develop preovulatory follicles by subcutaneous injection of 15 IU of pregnant mare serum gonadotrophin (PMSG). Two days later their oocytes were collected. They were cultured under conditions that permitted continuous observation. Times of the initial stages of maturation were carefully noted, in the absence and the presence of 10 μg/ml of bovine luteinizing hormone (LH). LH did not accelerate germinal vesicle disappearance. It was concluded that the immature PMSG-treated rat was not an appropriate model for the study of LH action; it was speculated that persistence of PMSG mimicked LH in all the oocytes from such donors.     

Large-scale chromatin remodeling in germinal vesicle bovine oocytes: interplay with gap junction functionality and developmental competence

In mammals, oocyte acquires a series of competencies sequentially during folliculogenesis that play critical roles at fertilization and early stages of embryonic development. In mouse, chromatin in germinal vesicle (GV) undergoes dynamic changes during oocyte growth and its progressive condensation has been related to the achievement of developmental potential. Cumulus cells are essential for the acquisition of meiotic competence and play a role in chromatin remodeling during oocyte growth. This study is aimed to characterize the chromatin configuration of growing and fully grown bovine oocytes, the status of communications between oocyte and cumulus cells and oocyte developmental potential. Following nuclear staining, we identified four discrete stages of GV, characterized by an increase of chromatin condensation. GV0 stage represented 82% of growing oocytes and it was absent in fully grown oocytes. GV1, GV2, and GV3 represented, respectively, 24, 31, and 45% of fully grown oocytes. Our data indicated a moderate but significant increase in oocyte diameter between GV0 and GV3 stage. By dye coupling assay the 98% of GV0 oocytes showed fully open communications while the number of oocytes with functionally closed communications with cumulus cells was significantly higher in GV3 group than GV1 and GV2. However, GV0 oocytes were unable to progress through metaphase II while GV2 and GV3 showed the highest developmental capability. We conclude that in bovine, the progressive chromatin condensation is related to the sequential achievement of meiotic and embryonic developmental competencies during oocyte growth and differentiation. Moreover, gap-junction-mediated communications between oocyte and cumulus cells could be implicated in modulating the chromatin remodeling process.     

Role of cumulus cells for rat oocyte maturation and metabolism

Oocytes collected from immature PMSG-treated rats on the morning of proestrus were allowed to mature in culture either surrounded by their cumulus cells or after denudation. It was found that the time course of oocyte nuclear maturation was similar whether the cumulus cells were present or not. The oxygen consumption of noncultured oocytes was 0.12 nl/hr/oocyte and increased by 40% after four to eight hours in culture with intact cumulus. Respiration of oocytes cultured without cumulus remained constant throughout the culture, except for a transient decrease after four hours. It is concluted that the cumulus cells do not affect the spontaneous nuclear maturation in vitro, but that the metabolism in oocytes cultured with intact cumulus is different from that of cultured denuded oocytes. Furthermore, it appears that the rise in oocyte oxygen consumption is not a prerequisite for nucler maturation.     

A gonadotropin-releasing hormone agonist and an activator of protein kinase C improve in vitro oocyte maturation in Macaca fascicularis

Cynomolgus monkey oocytes were recovered from follicles > 1,000 μm in diameter at day 8 in gonadotropin-stimulated cycles and cultured in vitro for 2 days. Germinal vesicle breakdown (GVBD) occurred in 30.3% of control oocytes (n = 76) compared with 54.0% and 55.0% of oocytes cultured in presence of a gonadotropin-releasing hormone agonist (GnRHa), Buserelin (n = 50), or a protein kinase C activator, 1-oleoyl-2-acetyl-rac-glycerol (OAG, n = 40), respective (P < .01). As similar results were obtained using OAG or Buserelin, we hypothesize that the action of Buserelin upon the primate oocyte is protein-kinase-C dependent. The possible effects of Buserelin on in vivo oocyte maturation have to be detemined.     

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。     

Sex reversal in medaka treated in vitro with 17alpha-methyldihydrotestosterone during oocyte maturation

Using the S-rR strain of the medaka Oryzias latipes, we examined the effect of a non-aromatizable androgen on sex determination. Intrafollicular immature oocytes isolated before breakdown of the germinal vesicle were incubated in the presence of 17alpha-methyldihydrotestosterone (MDHT) for about 10 h during their maturational period. At the end of incubation, mature oocytes were rinsed and then artificially inseminated in regular saline. The fertilized eggs were then allowed to develop in tap water, and the fry were reared on a regular powdered diet until adulthood. Sex reversal of female to male was observed in a manner dependent on the dose of MDHT. In the solvent control group in which intrafollicular oocytes were matured in medium containing no exogenous androgen, no sex reversal was observed. The present finding, that the sex of medakas can be reversed by a single in vitro exposure of immature oocytes to androgen during the preovulatory period, suggests the existence in the oocyte of a sex determinant sensitive to sex steroids. This method for controlling the sex of eggs before fertilization may establish sex-determined eggs as potent material for investigating the mechanism of sex determination in the medaka.     

The changes in sperm nuclei after penetrating fish oocytes matured without germinal vesicle material in their cytoplasm

The processes occurring from sperm penetration to chromosome formation in the cytoplasm of Oocytes matured in vitro, after removal of the germinal vesicle (GV) and before hormonal stimulation, were observed with electron microscope. The dechorionated oocytes, matured without the participation of the GV material, responded to sperm penetration by initiating a cortical reaction within 20 seconds after insemination. The pentrating sperm nuclei transformed to male pronuclei with vesiculation of the nuclear membrane, chromatin decondensation, and formation of a pronuclear membrane. Before cleavage, however, no chromosome formation was observed in these oocytes. Instead, the fully grown pronuclei change to a picnotic chromatin mass without or with an only fragmented nuclear membrane, then disappeared. On the contrary, sperm nuclei that penetrated into the cytoplasm of naked eggs containing GV material during maturation underwent pronuclear and chromosomal formation. Judging from these observation in Oryzias oocytes, the GV material seems to be unnecessary for the formation of pronucleus from the compact sperm nucleus, but is essential for the process of chromosomal formation.