Arp2/3 Complex Inhibition Prevents Meiotic Maturation in Porcine Oocytes

The Arp2/3 complex regulates actin nucleation, which is critical for a wide range of cellular processes, such as cell polarity, cell locomotion, and endocytosis. In the present study, we investigated the possible roles of the Arp2/3 complex in porcine oocytes during meiotic maturation. Immunofluorescent staining showed the Arp2/3 complex to localize mainly to the cortex of porcine oocytes, colocalizing with actin. Treatment with an Arp2/3 complex specific inhibitor, CK666, resulted in a decrease in Arp2/3 complex localization at the oocyte cortex. The maturation rate of porcine oocytes decreased significantly after CK666 treatment, concomitant with the failure of cumulus cell expansion and oocyte polar body extrusion. The fluorescence intensity of F-actin decreased in the cytoplasm, and CK666 also disrupted actin cap formation. In summary, our results illustrate that the Arp2/3 complex is required for the meiotic maturation of porcine oocytes and that actin nucleation is critical for meiotic maturation.     

Zinc Regulates Meiotic Resumption in Porcine Oocytes via a Protein Kinase C-Related Pathway

Zinc is an extremely important trace element that plays important roles in several biological processes. However, the function of zinc in meiotic division of porcine oocytes is unknown. In this study, we investigated the role of zinc during meiotic resumption in in vitro matured porcine oocytes. During meiotic division, a massive release of zinc was observed. The level of free zinc in the cytoplasm significantly increased during maturation. Depletion of zinc using N, N, N′, N′-tetrakis (2-pyridylmethyl) ethylenediamine (TPEN), a Zn²⁺ chelator, blocked meiotic resumption in a dose dependent manner. The level of phosphorylated mitogen activated protein kinase (MAPK) and p34^cdc2 kinase activity were reduced when zinc was depleted. Moreover, zinc depletion reduced the levels of phosphorylated protein kinase C (PKC) substrates in a dose dependent manner. Real-time PCR analysis showed that expression of the MAPK- and maturation promoting factor related genes C-mos, CyclinB1, and Cdc2 was downregulated following zinc depletion. Treatment with the PKC agonist phorbol 12-myristate 13-acetate (PMA) increased phosphorylation of PKC substrates and MAPK and increased p34^cdc2 kinase activity. This rescued the meiotic arrest, even in the presence of TPEN. Activation of PKC by PMA increased the level of zinc in the cytoplasm. These data demonstrate that zinc is required for meiotic resumption in porcine oocytes, and this appears to be regulated via a PKC related pathway.     

Meiotic Recombination in Human Oocytes

Studies of human trisomies indicate a remarkable relationship between abnormal meiotic recombination and subsequent nondisjunction at maternal meiosis I or II. Specifically, failure to recombine or recombination events located either too near to or too far from the centromere have been linked to the origin of human trisomies. It should be possible to identify these abnormal crossover configurations by using immunofluorescence methodology to directly examine the meiotic recombination process in the human female. Accordingly, we initiated studies of crossover-associated proteins (e.g., MLH1) in human fetal oocytes to analyze their number and distribution on nondisjunction-prone human chromosomes and, more generally, to characterize genome-wide levels of recombination in the human female. Our analyses indicate that the number of MLH1 foci is lower than predicted from genetic linkage analysis, but its localization pattern conforms to that expected for a crossover-associated protein. In studies of individual chromosomes, our observations provide evidence for the presence of “vulnerable” crossover configurations in the fetal oocyte, consistent with the idea that these are subsequently translated into nondisjunctional events in the adult oocyte.     

Chromosomes in the Porcine First Polar Body Possess Competence of Second Meiotic Division within Enucleated MII Stage Oocytes

To determine whether chromosomes in the porcine first polar body (PB1) can complete the second meiotic division and subsequently undergo normal pre-implantation embryonic development, we examined the developmental competence of PB1 chromosomes injected into enucleated MII stage oocytes by nuclear transfer method (chromosome replacement group, CR group). After parthenogenetic activation (PA) or in vitro fertilization (IVF), the cleavage rate of reconstructed oocytes in the IVF group (CR-IVF group, 36.4 ± 3.2%) and PA group (CR-PA group, 50.8 ± 4.2%) were significantly lower than that of control groups in which normal MII oocytes were subjected to IVF (MII-IVF group, 75.8 ± 1.5%) and PA (MII-PA group, 86.9 ± 3.7%). Unfertilized rates was significantly higher in the CR-IVF group (48.6 ± 3.3%) than in the MII-IVF group (13.1 ± 3.4%). The blastocyst formation rate was 8.3 ± 1.9% in the CR-PA group, whereas no blastocyst formation was observed in the CR-IVF group. To produce tetraploid parthenogenetic embryos, intact MII stage oocytes injected with PB1chromosomes were electrically stimulated, treated with 7.5 μg/mL cytochalasin B for 3 h (MII oocyte + PB1 + CB group), and then cultured without cytochalasin B. The average cleavage rate of reconstructed oocytes was 72.5% (48 of 66), and the blastocyst formation rate was 18.7% (9 of 48). Chromosome analysis showed similar proportions of haploid and diploid cells in the control (normal MII oocytes) and CR groups after PA; overall, 23.6% of blastocysts were tetraploid in the MII oocyte + PB1 + CB group. These results demonstrate that chromosomes in PB1 can participate in normal pre-implantation embryonic development when injected into enucleated MII stage oocytes, and that tetraploid PA blastocysts are produced (although at a low proportion) when PB1 chromosomes are injected into intact MII stage oocytes.     

Age-Related Decrease of Meiotic Cohesins in Human Oocytes

Aneuploidy in fetal chromosomes is one of the causes of pregnancy loss and of congenital birth defects. It is known that the frequency of oocyte aneuploidy increases with the human maternal age. Recent data have highlighted the contribution of cohesin complexes in the correct segregation of meiotic chromosomes. In mammalian oocytes, cohesion is established during the fetal stages and meiosis-specific cohesin subunits are not replenished after birth, raising the possibility that the long meiotic arrest of oocytes facilitates a deterioration of cohesion that leads to age-related increases in aneuploidy. We here examined the cohesin levels in dictyate oocytes from different age groups of humans and mice by immunofluorescence analyses of ovarian sections. The meiosis-specific cohesin subunits, REC8 and SMC1B, were found to be decreased in women aged 40 and over compared with those aged around 20 years (P<0.01). Age-related decreases in meiotic cohesins were also evident in mice. Interestingly, SMC1A, the mitotic counterpart of SMC1B, was substantially detectable in human oocytes, but little expressed in mice. Further, the amount of mitotic cohesins of mice slightly increased with age. These results suggest that, mitotic and meiotic cohesins may operate in a coordinated way to maintain cohesions over a sustained period in humans and that age-related decreases in meiotic cohesin subunits impair sister chromatid cohesion leading to increased segregation errors.     

Hydrogen Sulfide Donor Protects Porcine Oocytes against Aging and Improves the Developmental Potential of Aged Porcine Oocytes

Porcine oocytes that have matured in in vitro conditions undergo the process of aging during prolonged cultivation, which is manifested by spontaneous parthenogenetic activation, lysis or fragmentation of aged oocytes. This study focused on the role of hydrogen sulfide (H₂S) in the process of porcine oocyte aging. H₂S is a gaseous signaling molecule and is produced endogenously by the enzymes cystathionine-β-synthase (CBS), cystathionine-γ-lyase (CSE) and 3-mercaptopyruvate sulfurtransferase (MPST). We demonstrated that H₂S-producing enzymes are active in porcine oocytes and that a statistically significant decline in endogenous H₂S production occurs during the first day of aging. Inhibition of these enzymes accelerates signs of aging in oocytes and significantly increases the ratio of fragmented oocytes. The presence of exogenous H₂S from a donor (Na₂S.9H₂O) significantly suppressed the manifestations of aging, reversed the effects of inhibitors and resulted in the complete suppression of oocyte fragmentation. Cultivation of aging oocytes in the presence of H₂S donor positively affected their subsequent embryonic development following parthenogenetic activation. Although no unambiguous effects of exogenous H₂S on MPF and MAPK activities were detected and the intracellular mechanism underlying H₂S activity remains unclear, our study clearly demonstrates the role of H₂S in the regulation of porcine oocyte aging.     

Spindle-view系统在猪卵母细胞去核中的应用

应用Spindle-view对体外成熟培养36、42、44和48h的猪体外成熟卵母细胞减数分裂纺锤体进行去核操作,并与传统去核方法(McGrath-Solter去核法,挤压去核法)相比较,结果表明:①在42~48h之间利用Spindle-view得到的猪卵纺锤体影像与极体的相对位置没有明显的变化;②Spindle-view适合用于猪体外成熟卵母细胞减数分裂纺锤体的观察及去核;去核效率与其他两种方法相比差异极显著(95.5%,42.1%,74.2%,P<0.01);③纺锤体成像是否清晰可用于猪卵母细胞的质量监控。     

Meiotic Spindle Assessment in Mouse Oocytes by siRNA-mediated Silencing

Errors in chromosome segregation during meiotic division in gametes can lead to aneuploidy that is subsequently transmitted to the embryo upon fertilization. The resulting aneuploidy in developing embryos is recognized as a major cause of pregnancy loss and congenital birth defects such as Down’s syndrome. Accurate chromosome segregation is critically dependent on the formation of the microtubule spindle apparatus, yet this process remains poorly understood in mammalian oocytes. Intriguingly, meiotic spindle assembly differs from mitosis and is regulated, at least in part, by unique microtubule organizing centers (MTOCs). Assessment of MTOC-associated proteins can provide valuable insight into the regulatory mechanisms that govern meiotic spindle formation and organization. Here, we describe methods to isolate mouse oocytes and deplete MTOC-associated proteins using a siRNA-mediated approach to test function. In addition, we describe oocyte fixation and immunofluorescence analysis conditions to evaluate meiotic spindle formation and organization.     

Steroid-Cell Surface Interactions in the Induction of Meiotic Maturation in Amphibian Oocytes

The involvement of steroid-cell surface interactions, in the induction of oocyte maturation, was investigated. A simple in vitro method was developed for the application of steroids or other substances to isolated portions of the surface of individual amphibian ovarian follicles or oocytes. The technique involved placing follicles in conical tubes between two reservoirs containing culture media. With the use of dye or radioactive tracer studies, the extent of exchange between reservoirs could be monitored and the proportion of the surface treated could be calculated.
Follicular oocytes remained viable and underwent nuclear and cytoplasmic maturation while maintained in conical tubes after a short exposure to progesterone over their total surface. Restriction of the percentage of the oocyte surface exposed to progesterone markedly reduced the incidence of meiotic maturation. Reduced responsiveness to locally applied progesterone occurred even in the presence of elevated steroid concentrations. The results suggest that the amount of follicle surface exposed to steroid is an important determinant in initiation of nuclear-cytoplasmic interactions associated with the meiotic maturation process. The procedures and results described should provide a new approach to investigating regional differences in oocyte and follicle surfaces and to studying their differentiation.     

猪卵母细胞玻璃化冷冻后细胞骨架的变化

为研究玻璃化冷冻后猪卵母细胞纺锤体、染色体和微丝的变化,从屠宰猪卵巢表面直径2—5mm卵泡中采集未成熟(GV)期卵母细胞,由GV期卵母细胞经成熟培养获得体外成熟(MⅡ)期卵母细胞。GV期和MⅡ期卵母细胞各分为3组对照组、冷冻保护剂处理组和玻璃化冷冻组。MⅡ期卵母细胞经分组处理后直接用于激光扫描共聚焦显微镜(LSCM)观察样本;而GV期卵母细胞处理后先经44h成熟培养,再用作LSCM观察样本。供试卵母细胞经固定、免疫荧光染色后,于LSCM下观察。结果表明,冷冻保护剂处理组GV期卵母细胞经成熟培养后,其纺锤体结构、染色体排列与微丝分布正常率分别为42.9%、89.6%和28.6%;玻璃化冷冻组此3项指标的正常率分别为10.1%、36.4%和16.9%,两组间差异显著(P<0.05);除冷冻保护剂处理组染色体正常率与对照组无较大差异外,两试验组的其他指标均明显低于对照组(分别为79.5%、93.1%和72.3%,P<0.05)。MⅡ期卵母细胞冷冻保护剂处理组的纺锤体结构、染色体排列与微丝分布正常率分别为34.4%、61.3%和47.9%,而冷冻组分别为12.9%、56.7%和37.2%,两组均显著低于对照组(分别为78.3%、90.1%和72.8%,P<0.05)。结果表明,猪GV期和MⅡ期卵母细胞经冷冻保护剂处理或玻璃化冷冻保存后,均造成了纺锤体、染色体和微丝不可逆的损伤,这可能是影响卵母细胞成熟、受精与发育的重要原因。     

Guanine Nucleotides in the Meiotic Maturation of Starfish Oocytes: Regulation of the Actin Cytoskeleton and of Ca2+ Signaling

Background

Starfish oocytes are arrested at the first prophase of meiosis until they are stimulated by 1-methyladenine (1-MA). The two most immediate responses to the maturation-inducing hormone are the quick release of intracellular Ca²⁺ and the accelerated changes of the actin cytoskeleton in the cortex. Compared with the later events of oocyte maturation such as germinal vesicle breakdown, the molecular mechanisms underlying the early events involving Ca²⁺ signaling and actin changes are poorly understood. Herein, we have studied the roles of G-proteins in the early stage of meiotic maturation.

Methodology/Principal Findings

By microinjecting starfish oocytes with nonhydrolyzable nucleotides that stabilize either active (GTPγS) or inactive (GDPβS) forms of G-proteins, we have demonstrated that: i) GTPγS induces Ca²⁺ release that mimics the effect of 1-MA; ii) GDPβS completely blocks 1-MA-induced Ca²⁺; iii) GDPβS has little effect on the amplitude of the Ca²⁺ peak, but significantly expedites the initial Ca²⁺ waves induced by InsP₃ photoactivation, iv) GDPβS induces unexpectedly striking modification of the cortical actin networks, suggesting a link between the cytoskeletal change and the modulation of the Ca²⁺ release kinetics; v) alteration of cortical actin networks with jasplakinolide, GDPβS, or actinase E, all led to significant changes of 1-MA-induced Ca²⁺ signaling.

Conclusions/Significance

Taken together, these results indicate that G-proteins are implicated in the early events of meiotic maturation and support our previous proposal that the dynamic change of the actin cytoskeleton may play a regulatory role in modulating intracellular Ca²⁺ release.     

Genetic Analyses of Meiotic Recombination in Arabidopsis

Meiosis is essential for sexual reproduction and recombination is a critical step required for normal meiosis. Understanding the underlying molecular mechanisms that regulate recombination is important for medical, agricultural and ecological reasons. Readily available molecular and cytological tools make Arabidopsis an excellent system to study meiosis. Here we review recent developments in molecular genetic analyses on meiotic recombination. These include studies on plant homologs of yeast and animal genes, as well as novel genes that were first identified in plants. The characterizations of these genes have demonstrated essential functions from the initiation of recombination by double-strand breaks to repair of such breaks, from the formation of doubie-HoUiday junctions to possible resolution of these junctions, both of which are critical for crossover formation. The recent advances have ushered a new era in plant meiosis, in which the combination of genetics, genomics, and molecular cytology can uncover important gene functions.     

芜菁的诱导同源四倍体减数分裂分析

细胞学上芜菁 (Brassicarapa)为正常的二倍体 ,具有 1 1的联会和 1 - 1的染色体分离。它的花粉母细胞 (PMC’s )在小孢子发生过程中的减数分裂前期 (M1 )无“B染色体” ,也无任何次级缔合。用 0 0 2 %的秋水仙碱水溶液处理 6h对多倍体的诱导形成明显。诱导出的同源四倍体构型中无联会基因 ,而成 1或 2次交叉的二价体、三价体和四价体。从多倍体逆转的有趣现象中发现 ,4 6 7%的诱导多倍体后来恢复成二倍体。不平衡的染色体分离普遍存在于诱导出的同源四倍体中 ,这就是导致生存能力不同的异常配子体出现的主要原因。异常配子体的结合 ,在芸苔属 (Brassica)现存种的演化中起到了重要作用     

猪卵母细胞玻璃化冷冻的研究进展

配子冷冻保存技术在动物繁殖育种中具有重要的意义,但猪卵母细胞的冷冻保存目前还很困难,主要表现为冻后继续发育能力低。这与影响卵母细胞玻璃化冷冻效果因素众多有关,如脂滴的存在使猪卵母细胞对冷冻非常敏感。冷冻保护剂的使用同时也产生了毒性作用。针对猪卵母细胞冷冻保存的特点,研究人员已研究出了一些新的方法来提高冷冻效果,如细胞骨架稳定剂的使用减少了冷冻对猪卵母细胞造成的损伤,通过改进冷冻载体提高了冷冻速率,从而提高了冷冻效果。     

Aurora Kinase A Is Not Involved in CPEB1 Phosphorylation and cyclin B1 mRNA Polyadenylation during Meiotic Maturation of Porcine Oocytes

Regulation of mRNA translation by cytoplasmic polyadenylation is known to be important for oocyte maturation and further development. This process is generally controlled by phosphorylation of cytoplasmic polyadenylation element binding protein 1 (CPEB1). The aim of this study is to determine the role of Aurora kinase A in CPEB1 phosphorylation and the consequent CPEB1-dependent polyadenylation of maternal mRNAs during mammalian oocyte meiosis. For this purpose, we specifically inhibited Aurora kinase A with MLN8237 during meiotic maturation of porcine oocytes. Using poly(A)-test PCR method, we monitored the effect of Aurora kinase A inhibition on poly(A)-tail extension of long and short cyclin B1 encoding mRNAs as markers of CPEB1-dependent cytoplasmic polyadenylation. Our results show that inhibition of Aurora kinase A activity impairs neither cyclin B1 mRNA polyadenylation nor its translation and that Aurora kinase A is unlikely to be involved in CPEB1 activating phosphorylation.     

Induction and Inhibition of Meiotic Maturation in Follicle-enclosed Mouse Oocytes by Forskolin

A continuous exposure of follicle-enclosed mouse oocytes to ovine luteinizing hormone (LH, 10 μg/ml) in vitro resulted in a 3-fold elevation of CAMP levels in the follicle cells, but not the oocytes, with subsequent oocyte maturation. When follicle-enclosed oocytes were exposed to forskolin (0.01–10 μM) for 2 hr and then incubated in forskolin-free medium (transient exposure group), oocytes underwent germinal vesicle breakdown in a dose-dependent manner. In contrast, a continuous exposure of the follicles to forskolin (10 μM) for up to 10 hr failed to induce resumption of meiosis. Follicle cell cAMP levels increased within 2 hr after the initial exposure to forskolin, and thereafter decreased rapidly regardless of whether forskolin treatment was transient or continuous. A similar transient increase in oocyte cAMP levels was observed after transient or continuous treatment with forskolin. It was evident, however, that at any time examined oocyte cAMP levels were consistently higher in the continuous exposure group than in the transient exposure group. Furthermore, a continuous exposure to forskolin also blocked LH-induced meiotic maturation. These findings suggest that elevated levels of cAMP in the oocyte block meiotic maturation in mouse oocytes. The present results further suggest that an increase in follicle cell cAMP levels is essential to the LH-induced meiotic maturation.     

猪卵母细胞的体外受精及多精受精

对用于猪体外受精(IVF)的研究方法和技术,如传统的液滴IVF、透明带下注射精子受精(SUZI)、卵母细胞质内单精注射受精(ICSI)及细管IVF等进行了简述。与其它动物相比,进行猪卵的体外受精研究,多精受精现象特别明显。大量的研究表明,猪卵的多精受精不但与其品种特性有关,而且与卵母细胞成熟的程度、透明带的异常、受精时获能精子的浓度、输卵管分泌物、受精液蛋白添加成分、NaHCO3浓度、咖啡因、pH值以及温度等因素密切相关。