A receptor linked to a Gi-family G-protein functions in initiating oocyte maturation in starfish but not frogs

The stimulation of oocyte maturation by 1-methyladenine in starfish, and by a steroid in frogs, has been proposed to involve G-protein-coupled receptors. To examine whether activation of receptors linked to G(i) or G(z) was sufficient to cause oocyte maturation, we expressed mammalian G(i)- and G(z)-linked receptors in starfish and frog oocytes. Application of the corresponding agonists caused meiosis to resume in the starfish but not the frog oocytes. We confirmed that the receptors were effectively expressed in the frog oocytes by using a chimeric G-protein, G(qi), that converts input from G(i)- and G(z)-linked receptors to a G(q) output and results in a contraction of the oocyte's pigment. These results argue against G(i) or G(z) functioning to cause maturation in frog oocytes. Consistently, maturation-inducing steroids did not cause pigment contraction in frog oocytes expressing G(qi), and G(z) protein was not detectable in frog oocytes. For starfish oocytes, however, our results support the conclusion that G(i) functions in 1-methyladenine signaling and suggest the possibility of using frog oocyte pigment contraction as an assay to identify the 1-methyladenine receptor. To test this concept, we coexpressed G(qi) and a starfish adenosine receptor in frog oocytes and showed that applying adenosine caused pigment contraction.     

Inhibition of starfish oocyte maturation by some inhibitors of proteolytic enzymes

Starfish oocyte maturation is triggered by a natural hormone, 1-methyladenine (1-MeAde), produced in the follicle cells, or artificially by dithiothreitol (DTT). These substances act on the oocyte surface to produce a cytoplasmic maturation-promoting factor (MPF), which induces germinal vesicle breakdown (GVBD) and subsequent processes of meiotic maturation. Further, MPF is amplified in immature oocytes that have received the injection of MPF. In this paper the effect of leupeptin and antipain, protease inhibitors of microbial origin, on starfish oocyte maturation was investigated. The protease inhibitors were found to inhibit 1-MeAde-induced maturation when they were applied externally or injected into oocytes. DTT-induced maturation was also inhibited by injection of leupeptin. However, leupeptin did not inhibit the maturation-inducing action of MPF or MPF amplification. These results show that the protease inhibitors suppress the production of MPF by 1-MeAde or DTT, suggesting that some endogenous protease(s) acts in the production of MPF.     

Rearrangement of the actin-spectrin cytoskeleton during oocyte maturation of the starfish Asterias amurensis

Actin and spectrin localization in the oocytes of the starfish Asterias amurensis at hormonal induction of maturation until the destruction of the germinal vesicular membrane has been investigated by immunocytochemical and immunoblotting methods. In immature oocytes, spectrinlike protein and actin are detected to be colocalized in the undermembranous area of the cytoplasm and nuclear membrane. 1-Methyladenine causes redistribution of these proteins into intracellular structures. The actin-spectrin cytoskeleton rearrangement is shown to start at the animal pole of the oocyte and to spread then to its vegetative pole.     

Biochemical Studies on “Bakanae” Fungus. Part 68. Synthesis of Substances related to Gibberellins

Mucor hiemalis endo-β-N-acetylglucosaminidase (Endo-M) was proved to act on complex type biantennary oligosaccharides of glycoproteins by using dansylated asparagine-linked and pyridylaminated oligosaccharides, as the substrate. The enzyme could act on both asialo- and sialo-biantennary oligosaccharides. This is the only endo-β-N-acetylglucosaminidase known to act on sialo glycans, though their activity for them was weak. The enzyme could liberate complex type biantennary oligosaccharides from native human asialotransferrin, which was ascertained by a combination of the pyridylaminated method and HPLC. The enzyme had substrate specificity for high-mannose type oligosaccharides different from those of the endo-β-N-acetylglucosaminidases of other microorganisms: ovalbumin glycopeptide-IV was a better substrate for Endo-M than glycopeptide-V. The enzyme could act on complex type triantennary oligosaccharides of dansylated glycopeptide prepared from calf fetuin. The enzyme had various novel specificities in regard to activities on complex type and high-mannose type oligosaccharides in glycoproteins.     

1-Methyladenine inhibits adenylate cyclase in starfish oocytes

Summary

The effect of 1-methyladenine (1-MeA) on adenylate cyclase (AC) basal activity and on preliminary stimulated AC activity was investigated in oocyte membrane preparations of the starfish Aphelasterias japonica. 1-MeA inhibited the membrane-bound AC activity both after its addition to intact oocytes and in cell-free experiments. GTP did not affect AC activity but it intensified the inhibitory effect of 1-MeA on AC activity. Sodium fluoride (F″) stimulated the oocyte AC (8 fold), while 1-MeA significantly reduced F″-stimulated activity. Manganese (MnCl₂, 5mM) stimulated AC (150 fold), but 1-MeA did not reduce Mn²⁺-stimulated activity. However, Mn²⁺-stimulated AC activity was inhibited by 1-MeA in the presence of MgCl₂. Forskolin stimulated AC activity (7 fold) and 1-MeA had no effect on AC. Thus, the inhibitory effect of 1-MeA on stimulated AC activity is displayed only after stimulation of the regulatory AC subunit. We suggest that 1-MeA inhibits the oocyte AC acting via inhibitory regulatory Gi protein of AC.     

Evidence for a coelomic maturation factor controlling oocyte maturation in the polychaete Arenicola marina (L.)

Summary

Previous studies on Arenicola marina suggested that oocyte maturation was induced by a single maturation hormone from the prostomium. This maturation hormone was thought to act directly on the oocyte (Meijer and Durchon, 1977), A recently described species, Arenicola defodiens (Cadman and Nelson-Smith, 1993), morphologically very similar to A. marina, has been found at the sampling sites described by Meijer and Durchon (1977). Results presented here from studies on British populations of Arenicola marina show that in this species, oocyte maturation is controlled by two hormonal steps. The first step involves the prostomial maturation hormone. The second step depends on a maturation inducing substance in the coelomic fluid. We will refer to this as the coelomic maturation factor (CMF). A reliable in vitro assay for oocyte maturation in the lugworm Arenicola marina has been adopted. It utilizes fluorescence staining of the chromosome material with DNA labelling dyes (Hoechst 33342 and 33258). Maturation of oocytes in A. marina involves germinal vesicle breakdown (GVBD). This is accompanied by the movement of chromosomes from late prophase to metaphase of meiosis I and chromosome condensation. The chromosomes are stained brightly by the dyes and their relative positions can be easily identified so that mature and immature eggs can be distinguished by the differences in chromosome position and form. The development of the in vitro fluorescence assay has enabled us to demonstrate that there are two endocrine steps involved in the induction of oocyte maturation. We have begun the characterization of CMF, and data show this to be a thermolabile molecule with a molecular mass greater than 10 kd.     

A study of quantitative dynamics of F-actin during oocyte maturation in the starfish Asterias amurensis

We studied the actin cytoskeleton state in Asterias amurensis oocytes within 30 min after the 1-methyladenine-induced maturation until the germinal vesicle breakdown. The total amount of actin remained unchanged during oocyte maturation. In immature oocytes, the major part of actin is not a part of filaments, but in the presence of 1-methyladenine massive actin polymerization began already within 20 min. Electron immunocytochemistry methods demonstrated joint localization of actin and α_i-protein in the cytoplasm. They were redistributed from the cortex to the cytoplasm in the presence of 1-methyladenine. A possible involvement of actin cytoskeleton in transmembrane transduction of the hormonal signal at the postreceptor stages is discussed.     

A metaphase pause: Hormone-induced maturation progresses through a long pause at the first meiotic metaphase in oocytes of the starfish, Pisaster ochraceus

In several species of starfish, it has been reported that the meiotic divisions in fertilized oocytes occur precociously compared to those in unfertilized oocytes. The nature of the 'acceleration' of meiosis was studied using Pisaster ochraceus oocytes. The extent of the acceleration of first polar body formation was found to be completely dependent on the time of fertilization (or artificial activation); fertilization at about 100 min after 1–methyladenine application accelerated meiosis I the most, while earlier or later fertilization resulted in a smaller extent of accelerations of meiosis I. Observation of isolated meiotic spindles and fluorescent visualization of meiotic spindles in whole oocytes showed that progression of meiosis I in Pisaster oocytes pauses transiently at metaphase I for more than 40min unless they are activated. The activation shortened the duration of metaphase I, which resulted in the acceleration of first polar body formation. A new term 'metaphase pause' is proposed to define this long duration of metaphase I in starfish oocytes.     

Heteroplasmic conjugates formed by the fusion of starfish oocyte pairs with a 12 minute time difference in the maturation phase

Two starfish oocytes with a 12 min time difference in the maturation phase were fused together with electric pulses to make a heteroplasmic conjugate. The starfish used were Asterina pectinifera. The emergence of the first meiotic spindle and the extrusion of the polar bodies in the conjugate were timed. Under polarization microscopy two meiotic spindles emerged with a time difference of 10-11 min, which is close to the time difference in the maturation phase between the original oocytes before fusion. In contrast, subsequent formation of the first two polar bodies occurred successively with a short time lag of 1-3 min between them. Times for the formation of both polar bodies were midway between the anticipated times for polar body formation in respective non-fused control oocytes. Thus, in one nucleus the meiotic division was delayed, while in another nucleus it was accelerated, in a single heteroplasmic conjugate. These two sets of observations indicate the presence of a certain control system that regulates progression of the cell cycle at a point during the period from the entry into metaphase through to late anaphase of meiosis I in starfish oocytes. This type of cell cycle control in starfish oocytes is obviously distinct from the currently accepted view of the cell cycle control by the spindle assembly checkpoint that monitors unattached kinetochores of mitotic chromosomes.     

Intrafollicular control of oocyte maturation in the PIG

Summary The mammalian oocyte becomes arrested at the diplotene stage of the first meiotic division during prenatal or early postnatal life. It remains arrested in meiosis until shortly before ovulation when the surge of gonadotropin induces resumption and completion of meiosis to the metaphase II stage. When oocytes are harvested from medium-sized or large follicles of pig and other species and cultured, they resume meiosis spontaneously indicating that the follicles exert an inhibitory influence on meiosis. To analyze the control of meiosis by follicular components, culture of isolated pig oocytes in the presence of follicular cells or follicular fluid (FF1) has been used as a model in this laboratory. An oocyte maturation inhibitor (OMI) has been isolated and partially purified by ultrafiltration and gel chromatography of FF1 and shown to be a polypetide with a molecular weight in the order of 2000 daltons. Physiological characterization has shown that the effect of OMI in vitro is reversible and that it can be overcome by luteinizing hormone (LH). The action of OMI requires the presence of cumulus cells surrounding the oocyte since it was found that denuded oocytes, stripped of cumulus cells, do not respond to OMI. Furthermore, when cumulus-enclosed oocytes were cultured, OMI inhibited the differentiation of the cumulus cells in terms of morphology and progesterone secretion in a dose-related manner. The inhibition of cumulus differentiation by OMI was reversible and could be overcome by LH. The results indicate that the effect of partially purified OMI upon meiosis may be mediated by the cumulus cells. Presented in the formal symposium on Sexual Differentiation in Vitro and in Vivo at the 29th Annual Meeting of the Tissue Culture Association, Denver, Colorado, June 4–8, 1978. This study was supported by Grants 760–0530 from the Ford Foundation (to C.P.C.), and Grant B78-14F-5158-01 from the Swedish Medical Research Council (to T.H.).     

Change in the levels of adenine-related compounds in starfish ovarian follicle cells following treatment with gonad-stimulating substance

The resumption of meiosis in starfish oocytes is induced by 1-methyladenine (1-MeA), which is produced by ovarian foilicle cells under the influence of a gonad-stimulating substance (GSS). It has been reported that the 1-MeA produced is newly synthesized via a process of methylation, rather than being pre-stored within follicle cells or a breakdown product of some 1-MeA-containing substance. The present study examined a possible substrate for 1-MeA biosynthesis stored in follicle cells of the starfish Asterina pectinifera . Analyses using high-performance liquid chromatography indicated a large source of ATP among the adenine-related compounds in these follicle cells. When follicle cells were incubated in seawater in the presence of GSS, 1-MeA production was stimulated significantly. GSS also caused a reduction in intracellular levels of ATP. There was no change in the levels of either ADP or AMP. The amount of ATP consumed under the influence of GSS was similar to the amount of 1-MeA produced. Methionine and selenomethionine enhanced both 1-MeA production and ATP consumption by GSS in follicle cells. In contrast, ethionine and selenoethionine, competitive inhibitors of methionine, inhibited these processes. These results suggest that ATP is a possible substrate in the biosynthesis of 1-MeA by starfish ovarian follicle cells.     

Nuclear envelope breakdown in starfish oocytes proceeds by partial NPC disassembly followed by a rapidly spreading fenestration of nuclear membranes

Breakdown of the nuclear envelope (NE) was analyzed in live starfish oocytes using a size series of fluorescently labeled dextrans, membrane dyes, and GFP-tagged proteins of the nuclear pore complex (NPC) and the nuclear lamina. Permeabilization of the nucleus occurred in two sequential phases. In phase I the NE became increasingly permeable for molecules up to approximately 40 nm in diameter, concurrent with a loss of peripheral nuclear pore components over a time course of 10 min. The NE remained intact on the ultrastructural level during this time. In phase II the NE was completely permeabilized within 35 s. This rapid permeabilization spread as a wave from one epicenter on the animal half across the nuclear surface and allowed free diffusion of particles up to approximately 100 nm in diameter into the nucleus. While the lamina and nuclear membranes appeared intact at the light microscopic level, a fenestration of the NE was clearly visible by electron microscopy in phase II. We conclude that NE breakdown in starfish oocytes is triggered by slow sequential disassembly of the NPCs followed by a rapidly spreading fenestration of the NE caused by the removal of nuclear pores from nuclear membranes still attached to the lamina.     

卵母细胞成熟发生机制的研究进展

卵母细胞体外成熟培养已成为现代胚胎生物技术的重要内容之一,是体外受精、核移植等生物技术的重要环节。卵母细胞体外成熟受到众多因素的调控,其调控机制十分复杂。本文主要针对卵母细胞成熟过程中卵母细胞胞质成熟、核成熟及其主要调控因子等方面的发生发展机制进行总结。     

Mouse oocyte maturation modulated by a granulosa cell factor and by heparin and heparan sulfate

Oocyte maturation-preventing factor (OMPF) was extracted from bovine granulosa cells with a buffer containing 1 M urea and 5 mM EDTA. OMPF was partially purified by gel filtration on Sephadex G25 and by reversed-phase high performance liquid chromatography. The maturation-preventing activity of purified fractions was determined by measuring their capacity to block the spontaneous dissolution of the germinal vesicle (GVBD) of isolated cumulus-enclosed mouse oocytes. Hyaluronic acid, chondroitin sulfate, heparin, heparan sulfate, keratan sulfate, and dextran sulfate at concentrations of 500 μg/ml did not affect the frequency of GVBD of isolated mouse oocytes. Heparin and heparan sulfate, however, blocked the inhibitory effect of OMPF, whereas the inhibition of GVBD induced with dibutyryl cAMP, forskolin, W7 (calmodulin antagonist), and 3-isobutyl-l-methylxanthine (phosphodiesterase inhibitor) was not blocked. OMPF was eluted in the adsorbed fraction when chromatographed on heparin-Agarose, showing interaction of OMPF with heparin. The present results suggest that the glycosaminoglycan matrix may influence OMPF action on oocytes.     

Formation of polar-body-like structures induced in polyspermic starfish oocytes that had been inseminated at the germinal vesicle stage

Immature starfish oocytes, which are arrested at the first meiotic prophase and contain a large nucleus called the germinal vesicle (GV), are known to accept multiple sperm on insemination. We found that if these polyspermic starfish oocytes are induced to mature, they often form small protrusion(s) adjacent to the first polar body emitted shortly earlier. We refer to these protrusion(s) as 'polar-body-like structures (PLS).' Fluorescent staining of PLS indicated that they were not merely cytoplasmic protrusions, but contained some chromatin. Maturing process of these polyspermic oocytes was examined by immnofluorescent staining, which showed that: (i) numerous sperm asters were observed after the onset of GV breakdown; (ii) before the first polar body (PB1) emission, a complex microtubular structure resembling a multipolar spindle was formed; and (iii) several isolated asters were observed after PB1 emission. These results indicate that PLS formation may be induced by interaction of meiosis-I spindle with paternal centrosomes incorporated at GV stage.     

原癌基因c-erbB2和c-myb经丝裂原活化蛋白激酶和成熟促进因子途径调节卵母细胞的成熟

本研究探讨了原癌基因c-erbB:和c-myb对小鼠卵母细胞成熟的影响及其在调控卵母细胞成熟中与丝裂原活化蛋白激酶(mitogen-activated protein kinase,MAPK)和成熟促进因子(mamration promoting factor,MPF)的上下游关系.c-erbB2反义寡脱氧核苷酸(antisense oligodeoxynucleotide,ASODN)和c.myb ASODN均呈剂量依赖方式抑制卵母细胞的生发泡破裂(germinalvesicle breakdown,GVBD)率和第一极体(first polar body,PBl)排放率,并显著延迟其成熟时间.小鼠卵母细胞显微注射重组人c-erbB2蛋白和c-myb蛋白后,培养6 h其GVBD率分别比对照组上升了23.1%(P<0.05)和32.2%(P<0.05),.培养12 h其PBl排放率分别比对照组上升了17.3%(P<0.05)和23.5%(P<0.05).RT-PCR结果显示,小鼠卵母细胞中存在c-erbB2mRNA和c-myb mRNA表达;c-erbB2ASODN能明显抑制卵母细胞中c-erbB2mRNA和c-myb mRNA的表达,c-myb ASODN能明显抑制卵母细胞中c-myb mRNA的表达,对c-erbB2 mRNA无明显影响;MAPK抑制剂PD98059以及MPF抑制剂roscovitine在抑制卵母细胞成熟的同时,均能阻断显微注射重组人c-erbB:蛋白和重组人c-myb蛋白对卵母细胞成熟的促进作用,但对卵母细胞中c-erbB2mRNA和c-myb mRNA表达无明显影响.Western blot结果显示,c-erbB2ASODN、c-mybASODN、PD98059、roscovitine均使卵母细胞中MAPK磷酸化水平和cyclinB 1含量下降.结果提示,原癌基因c-erbB2、c-myb在卵母细胞成熟中起重要作用,可能是调控卵母细胞成熟中关键蛋白激酶如MAPK、MPF的上游激活物.     

MBTD1 is associated with Pr-Set7 to stabilize H4K20me1 in mouse oocyte meiotic maturation

H4K20me1 is a critical histone lysine methyl modification in eukaryotes. It is recognized and “read” by various histone lysine methyl modification binding proteins. In this study, the function of MBTD1, a member of the Polycomb protein family containing four MBT domains, was comprehensively studied in mouse oocyte meiotic maturation. The results showed that depletion of MBTD1 caused reduced expression of histone lysine methyl transferase Pr-Set7 and H4K20me1 as well as increased oocyte arrest at the GV stage. Increased γH2AX foci were formed, and DNA damage repair checkpoint protein 53BP1 was downregulated. Furthermore, depletion of MBTD1 activated the cell cycle checkpoint protein Chk1 and downregulated the expression of cyclin B1 and cdc2. MBTD1 knockdown also affected chromosome configuration in GV stage oocytes and chromosome alignment at the MII stage. All these phenotypes were reproduced when the H4K20 methyl transferase Pr-Set7 was depleted. Co-IP demonstrated that MBTD1 was correlated with Pr-Set7 in mouse oocytes. Our results demonstrate that MBTD1 is associated with Pr-Set7 to stabilize H4K20me1 in mouse oocyte meiotic 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.     

Assembly of a protein sharing epitopes with sperm dynein heavy chains into meiotic spindle in the prometaphase starfish oocyte

Starfish oocyte meiosis provides a good system for studying the mechanism for prometaphase chromosome movement. Since a protein sharing epitopes with sperm dynein might be a force generator for mitosis, the contribution of such a protein was assessed in this movement. Specific antibodies to heavy chains (HCs) and intermediate chains (ICs) of dynein subunits were affinity-purified from whole antidynein serum. We confirmed that the oocytes contain several polypeptides identical to sperm dynein subunits. The anti-HCs binding to in situ antigen was examined in the oocytes permeabilized with detergent at appropriate stages of maturation with special reference to tubulin and chromosomes, and the meiotic apparatus-establishing process was described in terms of a force generator (oocyte dynein). Before resumption of maturation, dynein HCs were particularly associated with prophase chromosomes within the germinal vesicle (GV). After GV breakdown, there was a striking local accumulation of dynein HCs in the "fading GV" (nuclear matrix). When chromosomes were pulled toward the central area between 2 asters, dynein was accumulated at first at the presumptive equator and then moved to the poles, showing uneven localization on the meiotic spindle.