CPEB and miR-15/16 Co-Regulate Translation of Cyclin E1 mRNA during Xenopus Oocyte Maturation

Cell cycle transitions spanning meiotic maturation of the Xenopus oocyte and early embryogenesis are tightly regulated at the level of stored inactive maternal mRNA. We investigated here the translational control of cyclin E1, required for metaphase II arrest of the unfertilised egg and the initiation of S phase in the early embryo. We show that the cyclin E1 mRNA is regulated by both cytoplasmic polyadenylation elements (CPEs) and two miR-15/16 target sites within its 3’UTR. Moreover, we provide evidence that maternal miR-15/16 microRNAs co-immunoprecipitate with CPE-binding protein (CPEB), and that CPEB interacts with the RISC component Ago2. Experiments using competitor RNA and mutated cyclin E1 3’UTRs suggest cooperation of the regulatory elements to sustain repression of the cyclin E1 mRNA during early stages of maturation when CPEB becomes limiting and cytoplasmic polyadenylation of repressed mRNAs begins. Importantly, injection of anti-miR-15/16 LNA results in the early polyadenylation of endogenous cyclin E1 mRNA during meiotic maturation, and an acceleration of GVBD, altogether strongly suggesting that the proximal CPEB and miRNP complexes act to mutually stabilise each other. We conclude that miR-15/16 and CPEB co-regulate cyclin E1 mRNA. This is the first demonstration of the co-operation of these two pathways.     

Multiple Requirements of PLK1 during Mouse Oocyte Maturation

Polo-like kinase 1 (PLK1) orchestrates multiple events of cell division. Although PLK1 function has been intensively studied in centriole-containing and rapidly cycling somatic cells, much less is known about its function in the meiotic divisions of mammalian oocytes, which arrest for a long period of time in prophase before meiotic resumption and lack centrioles for spindle assembly. Here, using specific small molecule inhibition combined with live mouse oocyte imaging, we comprehensively characterize meiotic PLK1’s functions. We show that PLK1 becomes activated at meiotic resumption on microtubule organizing centers (MTOCs) and later at kinetochores. PLK1 is required for efficient meiotic resumption by promoting nuclear envelope breakdown. PLK1 is also needed to recruit centrosomal proteins to acentriolar MTOCs to promote normal spindle formation, as well as for stable kinetochore-microtubule attachment. Consequently, PLK1 inhibition leads to metaphase I arrest with misaligned chromosomes activating the spindle assembly checkpoint (SAC). Unlike in mitosis, the metaphase I arrest is not bypassed by the inactivation of the SAC. We show that PLK1 is required for the full activation of the anaphase promoting complex/cyclosome (APC/C) by promoting the degradation of the APC/C inhibitor EMI1 and is therefore essential for entry into anaphase I. Moreover, our data suggest that PLK1 is required for proper chromosome segregation and the maintenance of chromosome condensation during the meiosis I-II transition, independently of the APC/C. Thus, our results define the meiotic roles of PLK1 in oocytes and reveal interesting differential requirements of PLK1 between mitosis and oocyte meiosis in mammals.     

Distribution of the Germinal Vesicle Material during Progesterone-Induced Oocyte Maturation in Xenopus and in Cynops

The distribution of the germinal vesicle material in the oocyte during progesterone-induced maturation was studied in Xenopus and in Cynops. In both species, two distinctive masses of yolkfree cytoplasm appear in specific areas of the oocyte and at definite stages of maturation. One, the primary cytoplasmic mass, is formed at the basal side of the germinal vesicle during early maturation and is very RNA-rich. In Xenopus , a large part of the primary cytoplasmic mass persists as a mass during maturation and ends up as a thin disk at the boundary between the animal and the vegetal hemisphere in the mature oocyte. In Cynops , a rod-like primary cytoplasmic mass extends near to the equatorial zone and becomes indistinct in the mature oocyte. The other, the secondary cytoplasmic mass, is formed at or prior to germinal vesicle breakdown in areas around the germinal vesicle and is also RNA-rich. The secondary cytoplasmic mass is dispersed and constitutes the RNA-rich animal hemisphere cytoplasm in the mature oocyte. Observed results suggest that the primary and the secondary cytoplasmic mass contain different germinal vesicle materials.     

Accumulation of Annulate Lamellae in the Subcortical Layer during Progesterone-induced Oocyte Maturation in Xenopus Laevis

Changes in the fine structure, the location and the number of stacks of annulate lamellae during progesterone-induced maturation of oocytes of Xenopus were determined by electron microscopy. longitudinal sections of full-grown oocytes, about 260 stacks of annulate lamellae were observed with marked concentration in the subcortical layer, particularly in the vegetal hemisphere. After exposure to. progesterone, annulate lamellae increased and accumulated further in the subcortical layer. A significant increase of annulate lamellae around the vegetal side of the germinal vesicle seen 3 h after progesterone application. In oocytes 6 h after progesterone application, an average of 320 stacks of annulate lamellae were seen in longitudinal sections and more than two-thirds of the pore complexes of annulate lamellae were localized in the subcortical layer less than 50 from the oocyte surface, the rest being distributed in the deeper ooplasm. At the time of ger- minal vesicle breakdown, all the annulate lamellae underwent complete decomposition. The results were discussed from the view point of comparative developmental biology.     

Changes in Electrophoretic Patterns of Oocyte Proteins during Oocyte Maturation in Oryzias latipes

Changes in the two-dimensional SDS-electrophoretic patterns of extracts of maturing denuded oocytes of the medaka ( Oryzias latipes ) were surveyed. In oocytes without follicular constituents several proteins became detectable in the area between the acidic and slightly basic proteins on the two-dimensional electrophoretograms, while a few of the protein spots disappeared during the process of oocyte maturation. The former proteins were detected also in oocytes that were induced to mature in vivo without breakdown of the germinal vesicle. Several proteins newly observed in extracts of post-vitellogenic oocytes during maturation after breakdown of the germinal vesicle were also identified by two-dimensional electrophoresis. Of several proteins that exhibited noticeable changes in maturing oocytes, only one spot incorporated ¹⁴C-labeled amino acid during maturation, suggesting that post-translational modification of many proteins occurred during oocyte maturation.     

Cdc42和球形肌动蛋白在卵母细胞胞质分裂中的定位分析

研究活性Cdc42与球形肌动蛋白(G-actin)在爪蟾卵母细胞胞质分裂中的定位关系。分别用GFP-wGBDmRNA与罗丹明-594-微管蛋白、Alexa-488-球形肌动蛋白与罗丹明-594-微管蛋白、GFP-wGBDmRNA与Alexa-594-球形肌动蛋白共同显微注射爪蟾卵母细胞。利用共聚焦显微镜,时间延迟摄影方法,分别观察活体卵母细胞中活性Cdc42、球形肌动蛋白在胞质分裂过程中的定位,以及活性Cdc42与球形肌动蛋白在胞质分裂中的定位关系。在卵母细胞胞质分裂中,活性Cdc42与球形肌动蛋白存在空间上共定位现象,并且在时相上具有一致性。结果提示活性Cdc42和球形肌动蛋白在卵母细胞胞质分裂过程中密切相关。     

山羊卵母细胞体外成熟过程中线粒体的动态分布

目的研究山羊卵母细胞减数分裂过程中线粒体的动态分布。方法收集山羊卵母细胞,在M199中分别培养4、8、12、16、20和24 h,用特异性线粒体标记探针进行标记,用激光扫描共聚焦显微镜观察线粒体的分布情况。结果生发泡期线粒体多分散在卵母细胞的胞质内,并且距生发泡有一定的距离;生发泡破裂期线粒体逐渐移向染色质;第一次减数分裂中期与第二次减数分裂中期线粒体成簇密布在染色体周围。排出的第一极体中也含有大量的线粒体。结论同其他哺乳动物卵母细胞体外成熟过程中线粒体分布情况相比,线粒体在山羊卵母细胞中的分布具有明显的相似性。线粒体密布在成熟卵母细胞染色体周围可能与极体的排出和受精后染色体的迁移有关。     

Nucleotide Metabolism during Pine Pollen Germination

The metabolism of purine- and pyrimidine nucleotides in pine pollen (Pinus mugo) grown in suspension cultures have been examined. In the ungerminated dehydrated pollen, the presence of ATP has been demonstrated. Incubation of the pollen in a germination medium leads to an exhaustion of the ATP pool, which is restored with the onset of oxygen uptake. By labelling pollen cultures with ³²P-orthophosphate, it has been possible to quantitate the nucleotide components of the pollen, and thereby to measure changes in the nucleotide pattern at various growth stages. The most marked changes occur during the initial phase of tube growth when a large increase in the ribonucleoside triphosphate and the sugar nucleotide pools is observed. The contents of ATP and UDP-glucose are further increased if starch synthesis is initiated by the addition of sucrose to the culture medium. In order to determine whether nucleotides in pine pollen are synthesized from de novo pathways or via reutilization pathways, from breakdown products of nucleic acids, pollen was incubated with ¹⁴C-labelled precursors of both the de novo and the reutilization pathways. Incorporation experiments established de novo synthesis of ATP and GTP from glycine, and de novo synthesis of CTP and UTP from orotic acid. The operation of pathways for the utilization of exogenous nucleosides was also demonstrated. While uridine, cytidine and adenosine are incorporated into nucleoside triphosphate to a great extent, only minor incorporation of inosine and guanosine is observed. These reutilization pathways might be of importance for the synthesis of nucleotides during tube growth in situ. Addition of inhibitors of glycolysis and oxidative phosphorylation drastically reduces the level of ribonucleoside triphosphates, indicating a rapid turnover of the nucleotide pool.     

哺乳动物卵母细胞成熟和受精中细胞骨架重组和作用

卵母细胞成熟和受精是动物生殖过程的核心环节。细胞骨架是遍布于卵母细胞胞质中的一种复杂的蛋白质纤维网络,研究表明,卵母细胞成熟和受精过程中伴随着广泛的胞质骨架重组。哺乳动物卵母细胞和早期胚胎中细胞骨架具有其独特的分布和功能,使卵母细胞和胚胎呈现出不同的变化特点。微丝、微管的分布变化与卵母细胞成熟和受精中遗传物质的重组密切相关。近年来,对哺乳动物不同物种间卵母细胞和胚胎中细胞骨架成分的研究取得了很大的进展,结合这些研究成果,对哺乳动物卵母细胞成熟和受精过程中细胞骨架的重组、分布和作用进行了介绍。同时,对多种信号转导途径参与卵母细胞成熟和受精中细胞骨架系统的调控也作了探讨。     

Thiol Protease Inhibitor,E-64-d,Prevents Spindle Formation during Mouse Oocyte Maturation1

E-64-d, a membrane permeant derivative of E-64, the thiol protease inhibitor, was found to prevent meiotic maturation of mouse oocytes in a dose dependent manner. When immature mouse oocytes were incubated with E-64-d for up to 14 hr, first polar body emission was blocked to 36% at 200 μg/ml and 6% at 400 μg/ml, but germinal vesicle breakdown occurred normally. Cytological analysis revealed that meiotic spindles were not formed, while chromosome condensation occurred. Thus, E-64-d prevents oocytes from progressing to the first meiotic metaphase. When exposed to E-64-d after 8 hr of incubation without E-64-d, one-fourth of oocytes completed the first meiotic division but never progressed to the second metaphase. In three-fourth of the oocytes inhibited to emit the first polar body, spindles disappeared after incubation with E-64-d. The results suggest that E-64-d promotes disassembly of meiotic spindles resulting in inhibition of meiotic maturation. We propose that thiol protease is involved in spindle formation in mouse meiotic maturation.     

Dynamics of Mitotic Apparatus Formation and Tubulin Content during Oocyte Maturation in Starfish

To follow the topo-temporal behavior of structures containing tubulin and the change in tubulin content during oocyte maturation, starfish oocytes were extracted with a medium containing detergent so that morphological observation and biochemical analysis could be conducted on the same residual oocyte preparation simultaneously. Before 1-methyladenine (1-MeAde) stimulation, "pre-meiotic asters" were observed on the germinal vesicle at the animal pole. 1-MeAde caused the appearance of distinct asters at the position of the aster precursor. When germinal vesicle breakdown (GVBD) took place, chromosomes were condensed. Chromosome gathering was concurrent with a reduction in the size of nuclear matrix. The mitotic apparatus was first constructed parallel to the cortex and then changed its axis perpendicularly. Fluorescence of tubulin due to indirect immunofluorescence in the cytoplasm other than the mitotic apparatus decreased rapidly along the course of maturation at least up to the first metaphase. Despite these dynamic morphological change, the tubulin content in the whole oocyte and the residual structures, measured by SDS-PAGE and immunostaining, did not show remarkable (statistically significant) changes through the course of maturation, although the content tended to decrease a little before the second polar body formation and to increase thereafter in the latter.     

Reorganization of the Endoplasmic Reticulum during Meiotic Maturation of the Mouse Oocyte

The endoplasmic reticulum (ER) of live metaphase II mouse eggs and prophase I-arrested oocytes was compared using the fluorescent, lipophilic dicarbocyanine dye, DiI. DiI, dissolved in soybean oil, was microinjected into oocytes and eggs; the dye diffused throughout the cytoplasm to label the ER, which was imaged by confocal microscopy. The mature egg had a fine reticular network of ER throughout the cell and numerous dense accumulations of membrane in the cortex. These ER accumulations, 1-2 μm in diameter, were generally absent deeper in the cytoplasm. A similar staining pattern was observed when the eggs were fixed within 1 min of injection, providing evidence that the cortical accumulations of membrane are part of a continuous ER membrane system, since membrane trafficking could not occur in a fixed egg. Cortical ER accumulations were localized to the same region of the egg as the cortical granules and were not observed in the cortical granule-free region adjacent to the meiotic spindle. In contrast, ER accumulations were rarely found in the cortex of the immature, prophase I-arrested oocyte, but larger and less well-defined membrane clusters were found throughout the deeper cytoplasm of the oocyte. The appearance of ER clusters in the egg cortex following oocyte maturation correlates with an increased ability of the mature egg to release calcium at fertilization. Since the ER is a calcium store, structural reorganization of the ER may be necessary to permit the large release of calcium and resulting cortical granule exocytosis at fertilization.     

吡啶核苷酸转氢酶的结构及功能

吡啶核苷酸转氢酶(pyridine nucleotide transhydrogenases)是能直接催化NADP(H)与NAD(H)之间氢负离子可逆转移的氧化还原酶, 主要调控分解代谢和合成代谢过程中NADH与NADPH之间的动态平衡. 膜结合吡啶核苷酸转氢酶(TH)是ATP依赖性跨膜蛋白, 由2个亚基构成, 每个亚基包含dⅠ、dⅡ和dⅢ三个结构域. 在TH结合可变催化机制中, 氢负离子的转移总是与质子转移相偶联. 可溶性吡啶核苷酸转氢酶(STH)是非能量依赖性的黄素蛋白, 以可溶性多聚体形式存在. 目前认为,很多因活性氧自由基异常增多而引起的线粒体疾病都与TH的活性有关, 包括糖尿病、癌症、神经退行性疾病及心血管疾病等. TH分子机制的研究将有助于揭示这些线粒体疾病的致病机理以及为其诊断和基因治疗提供分子依据. STH作用机理的研究及其在辅酶再生系统中的应用, 将会推动代谢工程和工业生物催化过程的进一步发展.     

小鼠卵母细胞体外成熟及受精过程中细胞核的时空变化规律

用电镜方法研究小鼠卵母细胞的发育及受精虽然已有很多报道,但大多数是有关细胞质、尤其是皮质颗粒、高尔基复合体及线粒体的形态及分布变化的。从卵母细胞体外成熟培养、第一次减数分裂恢复到受精后第二次减数分裂完成,细胞核经历了复杂的变化,有关的系统研究却很少。本实验详细地研究了小鼠卵母细胞体外成熟及受精过程中两性生殖细胞内细胞核的时空变化规律。从卵巢中采集生发泡（ＧＶ）期卵母细胞,进行体外成熟培养,经超排获得的成熟卵母细胞去卵丘和透明带后,用于体外受精。于体外成熟培养及受精后的不同时间,用光镜及电镜方法观察细胞核变化及极体排放。结果表明,尽管大多数卵母细胞在体外培养２至４小时生发泡破裂（ＧＶＢＤ）,但有１３．６％在培养８小时后仍处于ＧＶ期（图１）。电镜观察揭示,不发生ＧＶＢＤ的卵母细胞核的核仁由颗粒性纤维成分、空泡及纤维中心组成。有时核仁表面有空泡。只有核仁完全致密化、核仁周围有核仁相随染色质分布时,卵母细胞才获得恢复减数分裂的能力。ＧＶＢＤ发生时,随着核仁相随染色质向核膜侧扩散迁移,核仁越来越小;与此同时,核膜打折,染色质团块中央出现电子致密的芯。核仁的消失早于核膜的破裂,提示核仁成分可能参与核膜打折及破裂,体外培     

Role of Silicon in Diatom Metabolism : Cyclic Nucleotide Levels, Nucleotide Cyclase, and Phosphodiesterase Activities during Synchronized Growth of Cylindrotheca fusiformis

Adenylate cyclase, guanylate cyclase, and the cyclic nucleotide phosphodiesterases of Cylindrotheca fusiformis were characterized in crude and partially purified preparations. Both cyclases were membrane-bound and required Mn²⁺ for activity, though Mg²⁺ gave 50% activity with adenylate cyclase. Properties of adenylate cyclase were similar to those of higher eukaryotic cyclases in some respects, and in other respects were like lower eukaryotic cyclases. Guanylate cyclase was typical of other lower eukaryotic enzymes.

Two phosphodiesterase activities were found, one selective for cyclic AMP, the other for cyclic GMP. The 5′-nucleoside monophosphate was the major product of both activities and each of the enzymes had distinctive divalent cation requirements, pH optima, and kinetic parameters. Both phosphodiesterases were similar to those of other lower eukaryotes with one notable difference: the cyclic AMP enzyme was inhibited by calcium.

Changes in the cyclic nucleotide levels were quantitated in light-dark and silicon-starvation synchronized cultures using a more sensitive radioimmunoassay than used in a previously published study (Borowitzka and Volcani 1977 Arch Microbiol 112: 147-152). Contrary to the previous report, the cyclic GMP level did not change significantly in either synchrony. The cyclic AMP level increased dramatically very early in the period of DNA replication with the peak cyclic AMP accumulation substantially preceding that of DNA synthesis in both synchronies. There was no significant change in the activity of either cyclase or either phosphodiesterase during either synchrony. Thus, the mechanism for the rise in cAMP level remains unclear.

     

Elevated Progesterone Levels on the Day of Oocyte Maturation May Affect Top Quality Embryo IVF Cycles

In contrast to the impact of elevated progesterone on endometrial receptivity, the data on whether increased progesterone levels affects the quality of embryos is still limited. This study retrospectively enrolled 4,236 fresh in vitro fertilization (IVF) cycles and sought to determine whether increased progesterone is associated with adverse outcomes with regard to top quality embryos (TQE). The results showed that the TQE rate significantly correlated with progesterone levels on the day of human chorionic gonadotropin (hCG) trigger (P = 0.009). Multivariate linear regression analysis of factors related to the TQE rate, in conventional IVF cycles, showed that the TQE rate was negatively associated with progesterone concentration on the day of hCG (OR was -1.658, 95% CI: -2.806 to -0.510, P = 0.005). When the serum progesterone level was within the interval 2.0–2.5 ng/ml, the TQE rate was significantly lower (P <0.05) than when the progesterone level was < 1.0 ng/ml; similar results were obtained for serum progesterone levels >2.5 ng/ml. Then, we choose a progesterone level at 1.5ng/ml, 2.0 ng/ml and 2.5 ng/ml as cut-off points to verify this result. We found that the TQE rate was significantly different (P <0.05) between serum progesterone levels < 2.0 ng/ml and >2.0 ng/ml. In conclusion, the results of this study clearly demonstrated a negative effect of elevated progesterone levels on the day of hCG trigger, on TQE rate, regardless of the basal FSH, the total gonadotropin, the age of the woman, or the time of ovarian stimulation. These data demonstrate that elevated progesterone levels (>2.0 ng/ml) before oocyte maturation were consistently detrimental to the oocyte.