In Vitro Fertilization (IVF) is generally accepted as the most effective treatment for infertility. Its success depends on the correct and meticulous implementation of each stage in the procedure. The process of systematically examining embryos is standardized through the use of internationally recognized criteria. On the other hand, the evaluation of oocyte quality continues to be conducted more arbitrarily. A morphologically good quality mature human oocyte is universally described as one that shows a homogeneous cytoplasm, has a single polar body (PB), an approprate zona pellucida (ZP) thickness and a proper perivitelline space (PVS). An abnormality in one or more of these features are very common in IVF cycles and may be related to several factors that are extrinsic and intrinsic to the patient. There has been extensive speculation over whether specific anomalies in the structure of oocytes can suggest a reduced developmental capacity. The most notable among the dysmorphisms of oocytes are the severe morphological deviations, such as smooth endoplasmic reticulum clusters, cytoplasm granularity, and giant oocytes that are related to genetic abnormalities, and extra-cytoplasmic parameters such as PB morphology, the PVS and ZP abnormalities that may indicate oocyte ageing. This paper acknowledges the significance of oocyte morphology grading as an important and practical predictor of a successful IVF outcome and it can serve as a supplementary measure to embryonic assessment in order to optimize efficacy of assisted reproductive technology (ART). It discusses the fundamental knowledge that infertility specialists and embryologists should possess to enable its routine application in the ART laboratory.

Fertilization In Vitro ; Sperm Injections, Intracytoplasmic ; Reproductive Techniques, Assisted ; Embryonic Development ; Meiotic Spindle ; Spindle Apparatus

BACKGROUND: Mutations in centrosomal protein genes have been identified in a number of genetic diseases in brain development, including microcephaly. Centrosomal P4.1-associated protein (CPAP) is one of the causal genes implicated in primary microcephaly. We previously proposed that CPAP is essential for mother centriole maturation during mitosis. METHODS: We immunostained CPAP-depleted cells using the ninein antibody, which selectively detects subdistal appendages in mature mother centrioles. RESULTS: Ninein signals were significantly impaired in CPAP-depleted cells. CONCLUSION: The results suggest that CPAP is required for mother centriole maturation in mammalian cells. The selective absence of centriolar appendages in young mother centrioles may be responsible for asymmetric spindle pole formation in CPAP-depleted cells.
Brain ; Cell Cycle ; Centrioles* ; Centrosome ; Humans ; Microcephaly ; Mitosis ; Mothers* ; Spindle Poles

Multinucleated cells resulted from mitosis defect have been noted in pathophysiological states of the cells such as inflammation, senescence and cancer. Since oxidative stress has been known to correlate with these pathophysiological conditions, we tested the effect of H2O2 on the cell cycle progression and formation of multinucleated cells. H2O2 induced a significant delay in cell cycle progression in Chang liver cells. Interestingly, H2O2 actively induced hyperamplification of centrosomes (> or =3) and multipolar spindle formation during mitosis and subsequently increased the generation of multinucleated cells. A significant increase of the phospho-ERK level was observed upon H2O2 treatment but PD98059, an MEK1/2 inhibitor, didn't reduce the frequency of cells with hyperamplified centrosomes. On the other hand, treatment of either H2O2 or adriamycin increased intracellular ROS levels and multinucleated cells, which were significantly suppressed by antioxidants, N-acetylcysteine and PDTC. Thus, our results suggest that oxidative stress can trigger centrosome hyperamplification and multinucleated cell formation, which may promote pathophysiological progression.
Cell Line ; Cell Nucleus/*drug effects/*metabolism ; Centrosome/*drug effects/*metabolism ; Gene Amplification ; Humans ; Hydrogen Peroxide/*pharmacology ; MAP Kinase Signaling System ; Mitotic Spindle Apparatus/drug effects ; Phenotype ; Reactive Oxygen Species/metabolism ; Research Support, Non-U.S. Gov't

OBJECTIVE: To investigate the extent of meiotic spindle damages in cryopreserved-thawed mouse mature oocytes. METHODS: After slow freezing and ultra-rapid thawing using 1.5M dimethylsulfoxide(DMSO), mouse mature oocytes were stained by anti-alpha tubulin monoclonal antibody. The meiotic spindle and chromosomes configuration were assessed using confocal microscope. The influence of time to post-hCG oocytes retrieval (i.e. 12 hrs vs 17 hrs) was also evaluated. RESULTS: The normal meiotic spindles were observed in 89.8% of post-hCG 12 hrs group, and 80.1% of post-hCG 17 hrs group, and these were significantly lower than that of each unfreezed control. Post-hCG 12 hrs group showed a significantly higher incidence of normal meiotic spindles, compared with post-hCG 17 hrs group. CONCLUSION: The extent of meiotic spindle damages was significantly increased after cryopreservation in mouse mature oocytes. We proposed that 12 hrs interval of post-hCG oocytes retrieval may be more beneficial.
Animals ; Cryopreservation ; Dimethyl Sulfoxide ; Freezing ; Incidence ; Mice* ; Oocytes* ; Spindle Apparatus* ; Tubulin

OBJECTIVETo investigate the influence of two different vitrification cryopreservation methods on the spindles of mouse M II oocytes.

METHODSThree groups were included in the experiment, Group A, Group B and the control ( fresh oocytes). Mouse oocytes were vitrified by using cryoloop, with ethylene glycol( EG) in Group A and with EG + dimethyl sulphoxide ( DMSO) in Group B as cryoprotectants, and then the oocytes were placed directly into liquid nitrogen. Three hours after the frozen oocytes were thawed they were fixed, and the microtubule and chromosome were stained by indirect immunofluorescent method.

RESULTSThe survival rates of the oocytes after treated by the two vitrification cryopreservation methods had no difference ( 80. 3% vs 87. 5% , P > 0. 05) . The rate of the intact spindles in Group A was much lower than that of the control and Group B ( 15. 2% vs 78.7% , 15. 2% vs 77. 5% , P < 0. 05). But there was no difference between the latter two groups (78. 7% vs 77. 5% , P >0. 05). The oocytes with normal chromosome in Group A were much less than in the control and Group B (17.4% vs 76. 6% , 17. 4% vs 72. 5% , P <0. 05) , with no difference between the latter two groups(76. 6% vs 72. 5% , P >0. 05) ; The oocytes with abnormal chromosome were more in Group A than in the control and Group B (82. 6% vs 19. 1% , 82. 6% vs 27. 5% , P <0. 05) , with no difference between the latter two groups (19.1% vs 27.5% , P >0.05).

CONCLUSIONThe changed vitrification cryopreservation method helps conserve the intact spindle configuration of mouse oocytes.

Animals ; Cryopreservation ; methods ; Cryoprotective Agents ; Female ; Fertilization in Vitro ; Mice ; Mice, Inbred ICR ; Oocytes ; cytology ; Spindle Apparatus

Tubulin is the major protein of microtubule. alpha- and beta- tubulins form heterodimers, while gamma-tubulin regulates microtubule organization. The present study aimed to observe the dynamic changes of gamma-tubulin in preimplantation development of parthenogenetic mouse embryos. Immunofluorescence and laser confocal microscopy were used to detect the location of gamma-tubulin in preimplantation parthenogenetic embryos activated by SrCl2. The oocytes were collected at 13-14 h after hCG injection, and then activated with 10 mmol/L SrCl2 in Ca(2+)-free CZB medium with 5 mmol/L cytochalasin B (CB), fixed at 1 h intervals until 6 h after activation. The results showed that spindle was paralleled with the cell membrane all the time, when the meiosis of MII mouse oocytes resumed. The rotation of spindle was inhibited, but karyokinesis was not influenced. At 0 h after activation, i.e. at metaphase, gamma-tubulin was distributed mainly on the two poles of spindle. At 1 h after activation, i.e. at anaphase, following the separation of chromosomes, gamma-tubulin was transformed from dense to disperse. At 2 h after activation, gamma-tubulin was localized between the segregated sister chromatids at telophase. However, at 3-6 h after activation, gamma-tubulin concentrated around the two female pronuclei during their formation and juxtaposition. Moreover, another group of MII oocytes were activated for 6 h and cultured in droplets of KSOM medium under mineral oil in 5% CO2 in air at 37 degrees C to permit parthenogenetic development. The embryos were collected and fixed at 3 h, 14 h, 16 h, and 18 h of culture. At 3 h after culture, i.e. at mitotic interphase, it was shown that amorphous gamma-tubulin distributed around the nuclei of early parthenogenetic embryos. At 24 h after culture, i.e. at prometaphase, gamma-tubulin migrated along the spindle microtubule to the two poles. Our results showed that gamma-tubulin had similar location patterns at metaphase, anaphase and telophase in meiosis and mitosis. It was concluded that gamma-tubulin assembly in parthenogenetically activated oocytes facilitated the formation of negative pole cap and the stabilization of microtubule, thus promoting the spindle formation at meiosis and mitosis. The relocation of gamma-tubulin at anaphase and telophase might be induced by the event of segregation of homologous chromosome being pulled away by the spindle. gamma-tubulin might contribute to the migration and juxtaposition of the two female pronuclei as well.
Animals ; Embryo, Mammalian ; Embryonic Development ; Female ; Meiosis ; Mice ; Mitosis ; Oocytes ; cytology ; Parthenogenesis ; Spindle Apparatus ; physiology ; Tubulin ; physiology

In association with microtubules, a variety of kinesins play important roles in cellular functions such as intracellular transport of organelles or vesicles, signal transduction, and cell division. In a previous study we revealed that human kinesin superfamily protein member 4 (KIF4) is a chromokinesin that binds to chromosomes. Since localization of several kinds of kinesin at midzone called central spindle, or midbody that connects two daughter cells, or both, suggests their implication in cell division, we investigated KIF4 localization of during mitosis and cytokinesis in Hela cells. In addition to association with segregating chromosomes through entire mitosis, it also localized to the midzone and to midbody at ana/telophase through cytokinesis. Especially in cells at cytokinesis, KIF4 appeared as a doublet facing each other at the apical ends of two daughter cells. Three- dimensional analysis of architectural relationship between microtubule bundles and KIF4 indicated that KIF4 forms a ring structure wrapping around the microtubule bundles. These results suggest that KIF4 is involved in cytokinesis, although direct evidence was not provided in this study.
Animals ; Cell Division/*physiology ; Hela Cells ; Humans ; Immunohistochemistry ; Kinesin/*metabolism ; Mitotic Spindle Apparatus/*metabolism ; Research Support, Non-U.S. Gov't

In assisted reproductive techniques, the operator attempts to select morphologically best embryos to predict embryo viability. Development of polarized light microscope, which evaluates the oocytes' spindles according to birefringence of living cells, had been helpful in oocyte selection. The aim of this study is evaluating the relationship between meiotic spindles visualization and intracytoplasmic sperm injection (ICSI) outcomes in human oocytes. In this study, 264 oocytes from 24 patients with an average age of 30.5±7.5 years with infertility duration of 1 to 10 years were collected. The oocytes were randomly allocated to the control injection group (n=126) and the oocyte imaging group (spindle-aligned group) (n=138). In the spindle-aligned group, the meiotic spindle was identified by means of polarized light microscope to align the spindle at 6 or 12 o'clock. Then the spindle-aligned group was divided into three sub-groups based on spindle morphology: fine, average, and (poor). After ICSI, embryos were checked every 24 hours and scored; 72 hours later, high-grade embryos were transferred intravaginally to uterus. This study showed that the fertilization rate in the spindle-aligned group was higher than the control group (P<0.05). After cleavage, a positive correlation was observed between spindle morphology and embryo morphology. Among the sub-groups of spindle-aligned group, the embryos' morphology of the fine group was better than the other subgroups and embryos of the poor group had lower quality and more fragmentation. The results revealed that the selection of oocytes based on meiotic spindle imaging can significantly improve the rate of fertilization and embryo cleavage and certainly increase the rate of implantation.
Birefringence ; Embryonic Structures ; Fertilization ; Humans* ; Infertility ; Microscopy, Polarization ; Oocytes* ; Reproductive Techniques, Assisted ; Sperm Injections, Intracytoplasmic* ; Spindle Apparatus* ; Uterus

The Spindle-view, a specialized instrument for observing spindle image, was applied to observe the meiotic spindles of vitro matured porcine oocytes at 36, 42, 44, 48h, and enucleation from porcine, comparing to the previously methods (McGrath-Solter's method and two-step-squeezing method) in the enucleated. The results showed that: (1) there was no noticeable differences at vicinity of spindle images and 1st polar body among in vitro matured porcine oocytes at 40-48 h under the instrument; (2) Spindle-view is suitable for the observation of meiotic spindles of matured oocytes and enucleation from porcine; the modified Spindle-view method for enucleation is significantly better than McGrath-Solter' s method and two-step-squeezing method in the enucleated rates (95.5%, 42.1%, 74.2%, P < 0.0l) of absolutely removing nuclei matter; (3) the spindle images could be used to monitor the oocyte qualities.
Animals ; Cell Nucleus ; ultrastructure ; Cells, Cultured ; Cytological Techniques ; Female ; Nuclear Transfer Techniques ; Oocytes ; cytology ; Spindle Apparatus ; ultrastructure ; Swine

The aim of the present study is to observe the dynamic changes of γ-tubulin in mouse somatic nuclear transferred (SCNT) embryos. The γ-tubulin was detected and analyzed in the enucleated oocyte and SCNT embryos by immunofluorescence and laser confocal microscopy. The results showed that γ-tubulin distributed in the cortex of the enucleated MII oocytes, and decreased in this area during the activation of oocytes. Meanwhile cytoplasmic asters appeared, but there was no spindle formed. Spindle formation could be observed in the enucleated oocytes which were injected with cumulus cells and activated by SrCl2. The spots-like γ-tubulin signals spread between chromosomes at the prophase, and the signals arrayed with spindle or aggregated at two poles of the spindle at the early metaphase. Furthermore, γ-tubulin signals were localized between the segregated sister chromatids at anaphase or telophase. Some reconstructed embryos exhibited advanced activation, showing abnormal spindles and aberrant distribution of γ-tubulin and chromosomes. Two spindles would be formed when the cumulus cell was injected into an intact oocyte, and the distribution of γ-tubulin was similar to that of the normal SCNT. Moreover, advanced activation also occurred in this case and formed either two small spindles or one big barrel-shaped spindle. These results suggest that γ-tubulin plays a pivotal role in spindle assembling in mouse SCNT embryos. The reconstructed oocytes were easily to be activated, and aberrant distribution of γ-tubulin is associated with formation of abnormal spindles and chromosome misalignment.
Animals ; Embryo, Mammalian ; metabolism ; Fluorescent Antibody Technique ; Metaphase ; Mice ; Microscopy, Confocal ; Nuclear Transfer Techniques ; Oocytes ; cytology ; Spindle Apparatus ; metabolism ; Telophase ; Tubulin ; metabolism