Zinc (Zn2+) is one of essential factors during mammalian oocyte maturation and fertilization. Previous studies showed that depletion of cellular Zn by metalion chelator impair asymmetric division of oocyte. But the detailed mechanism of these phenomena is unclear. We found that depletions of zinc by cell-permeable heavy metal chelator N,N,N',N'-tetrakis(2-pyridylmethyl)ethane-1,2-diamine (TPEN) caused the decrease of cytoplasmic actin mesh level. Spire2-GFP is co-localized with zinc at the cortex and intracellular vesicle. By the treatment of TPEN, number of Spire2-GFP decorated vesicle is drastically decreased, indicating that Zn2+is essential for the localization of the spire in mouse oocyte. Two putative zinc-binding regions were located in the C-terminal part of Spire2. Mutations of zinc binding site on spire abolish its localization at the intracellular vesicle. Over expression of C-terminal region containing zinc binding site of spire impair oocyte maturations and decrease cytoplasmic actin mesh. Taken together, these results suggest that intracellular zinc is crucial for the proper localizations of spire in the mouse oocyte, and unraveling the novel regulatory mode of actin nucleator spire by Zn2+.

The plastic monomer bisphenol A (BPA) is well known as a representative environmental hormones. Recent studies showed that the BPA exposure induced mitochondrial dysfunction and mitochondrial derived reactive oxygen species (mito-ROS). However, changes of antioxidant enzymes expression and ROS production from mitochondria according to the BPA exposure on in vitro maturation (IVM) of porcine oocytes have not been studied. We hypothesized that regulation of ROS production from mitochondria by BPA may play a critical role in meiotic maturation or expansion of cumulus cells in cumulus-oocyte complexes (COCs). To investigate the negative effects of BPA exposure on oocyte maturation, immature pig oocytes were matured in NCSU-23 medium supplemented with BPA (50, 75 and 100 μM) for 44 h. Expectedly, the rates of meiotic maturation and cumulus cell expansion of COCs in the BPA (75 μM) treated group was significantly lower than those of control group (p<0.01). Most of secretion factors expressions from COCs were significantly decreased (p<0.05) in the BPA treated COCs. Next, we investigated the intracellular ROS and mitochondrial specific superoxide production according to the BPA exposure using DCF-DA and mito-SOX staining, respectively. BPA exposure were showed that increasing of both intracellular ROS and mito-ROS, as well as mitochondrial related antioxidant enzymes (sod2, prdx3, prdx5) mRNA expression significantly increased (p<0.01) in COCs. And then, mitochondria membrane potential (MMP) dramatically reduced, and mitochondrial-derived apoptotic factors (bax, bcl-xl, caspase 3) mRNA expressions were increased (p<0.01) in BPA treated COCs. In additon, protein levels of mitochondrial-derived apoptosis genes (AIF, cleaved parp1 and caspase 3) were significantly increased (p<0.05) by BPA exposure. To confirm the reduction of BPA-induced mito-ROS, we used to the mitochondrial-targeted ROS scavenger, mito-TEMPO. Interestingly, addition of mito-TEMPO (0.1 μM) to the BPA pre-treated COCs recovered in meiotic maturation of porcine oocytes. These results demonstrated that BPA exposure was induced increasing of mitochondrial dysfunction, mito-ROS and mitochondrial-mediated apoptosis on pig oocyte maturation. Therefore, we suggest that controlling of mito-ROS plays a critical role in pig oocyte maturation in vitro. These findings will be helpful to solve causes of mitochondrial-related infertility.

Melatonin has an important role as anti-oxidative effect and reducing of endoplasmic reticulum(ER)-stress on oocyte maturation and embryo development. Under ER-stress condition, unfolding protein response (UPR) is a defence mechanism in mammalian cells. Recently, regulation of UPR signaling genes are involved in oocyte maturation, embryo development and female reproduction. However, there is no report on the role of melatonin for UPR signaling and ER-stress mediated apoptosis during pig oocyte maturation progression. Moreover, the changes of UPR genes expression according to the porcine oocyte maturation is not yet fully understood. Here, we investigated the changes of UPR signal (BIP/GRP78, ATF4, p90/p50ATF6, and XBP1) and ER-stress apoptotic factor CHOP genes expressions in porcine oocyte maturation by Western blot and RT-PCR analysis. During oocyte maturation, UPR marker and CHOP genes expressions were significantly increased in matured oocytes or cumulus-oocyte complexes (COCs). UPR markers expressions were significantly increased by ER-stress inducer, tunicamycin (Tm), treated (1, 5, 10 μg/ml) groups in a dose-dependent manner compared with control group. To confirm the reducing of ER-stress by melatonin (0.1 μM), we were compared to the effects of ER-stress inhibitor, TUDCA (200 μM), after pre-treated Tm (5 μg/ml) for 22 h maturation. Expressions of UPR markers and meiotic maturation were recovered by melatonin (0.1 μM) in COCs. And, we observed the role of Grp78/Bip as UPR signaling beginning marker using siRNA. In result, reduction of Grp78/Bip gene expression by siRNA was induced the inhibition of oocyte maturation (32.5±10.1 vs control; 77.8±5.3), and p50ATF6 protein level was significantly decreased (p<0.001) in cultured COCs for 44 h. In addition, these results were recovered through the addition of melatonin (0.1 μM) or TUDCA (200 μM) in maturation medium. These results demonstrated that the regulation of UPR signaling via Grp78/Bip gene induction plays a critical role in porcine oocyte maturation in vitro. Furthermore, this present study first confirmed a functional link between inhibition effect of ER-stress by melatonin and regulating of UPR signaling in porcine oocyte maturation. In conclusion, melatonin improves the oocyte maturation and cumulus cells expansion of COCs through the regulation of UPR signal pathway by BIP/GRP78 against the ER-stress during porcine oocyte maturation periods.

Mitotic spindle formation is regulated by centrosomes, composed of a centriole pair surrounded by pericentriolar materials(PCM) proteins. However, mammalian oocytes rely on acentriolar MTOCs for the function of meiotic spindle. The composition of acentriolar MTOCs and the molecular precesses that regulate the localization and accumulation in mammalian oocyte are not well understood. In this study, we analyzed the mechanisms of spindle microtubule nucleation and stability from MTOCs in mouse oocyte, and indentified Centrosomal protein192(CEP192) as a key regulator for acentriolar MTOC formation. CEP192 specifically colocalized with pericentrin (PCNT) during the oocyte maturaion. CEP192 proteins are localized throughout cytoplasm and around nucleus at GV stage, and then after BD stage, CEP192 proteins were further fragmented into smaller MTOCs around chromosomes. At metaphase, CEP192 proteins were concentrated in spindle pole. Knockdown of CEP192 using siRNAs resulted in metaphase I arrest. The arrested oocytes were characterized by reduced microtubule intensity and misalignment chromosome. Also at BD and ProMI stage, the oocytes reduced microtubule density and PCNT intensity. To confirm the mechanism of CEP192 regulation, we confirmed that PLK1 and AuroraA kinase were involved in CEP192 activation. The investigations for detailed molecular mechanisms of CEP192 and RanGTP for microtubule nucleation in oocytes are underway using various techniques including siRNA, mRNA, and positive or negative dominant injection and inhibitors.

Growth differentiation factor 8 (GDF8) is a member of the transforming growth factor-β that has been identified as a strong physiological regulator. The purpose of this study is to investigate the effects of GDF8 on porcine oocytes during in vitro maturation (IVM). We investigated a specific gene transcription levels in oocytes and cumulus cells (CC) after IVM, and protein kinase B (PKB) expression and activation levels in matured CCs by western blotting. Each concentration (0, 1, 10, and 100 ng/ml) of GDF8 was treated in maturation medium (TCM199) while process of IVM. Data were analyzed by ANOVA followed by Duncan using SPSS (Statistical Package for Social Science). Data are presented as the mean and differences were considered significant at P < 0.05. After 44 h of IVM, oocytes are mechanically denuded from CCs with 0.1% of hyaluronidase, and then the separated each group of oocytes and CCs were sampled. To assess the effect of GDF8 on specific gene transcription level changes as a dose response during IVM, the realtime PCR was performed. In CCs, all of GDF8 treatment groups showed significantly higher CREB transcription regulator cbp mRNA and the 1- and 10 ng/ml treatment groups observed significantly increased cumulus expansion related genes areg, cox-2, has2, ptx3 and tnfaip6 transcription levels after IVM. In matured oocytes, the maternal factors jmjd3 and zar1, transcriptional regulator foxo1 and sirt1, mitochondrial activity factor sirt3 and acadl, and anti-apoptosis gene bcl-2 mRNA transcription levels were significantly increased in 1- and10 ng/mL of GDF8 treatment groups compared with control. To determine effect of GDF8 treatment during IVM, translation regulator PKB protein expression and phosphorylation levels were analyzed in CCs by western blotting. The 10 ng/ml treatment group showed significantly increased phosphorylated PKB (1.4 times higher than control) protein levels (P < 0.05). In conclusion, treatment 10 ng/ml of GDF8 during IVM activates CREB related transcription and induced cumulus cells expansion via activation of PKB signaling in CCs. The transcriptional landscape changes in CCs result maternal factors accumulation and mitochondrial activation in oocytes during IVM.

α-solanine is toxic to human health by disturbing digestive and central nervous systems. However, little information has been focused on investigated with respect to α-solanine influence in mammal oocyte maturation and quality. In this study, we investigated the effects of α-solanine on oocyte maturation, quality and possible molecular mechanisms in a pig model. Porcine Cumulus-oocyte complexes (COCs) were treated with increasing concentration (0, 1, 10, 20, 50 μM) of α-solanine subjected to further in vitro maturation culture. The result showed that α-solanine significantly inhibited cumulus cells expansion and increased oocyte death rates when the concentration of α-solanine more than 10 μM. After cell cycle and cytoskeleton analysis, the results showed that α-solanine (10 μM) disturbed meiotic resumption, increased abnormal spindle formation and cortical granules (CGs) distribution rates when compared with the untreated group. α-solanine (10 μM) triggered autophagy by increasing the expression of autophagy-related genes (LC3, ATG7, LAMP2) and accumulation of LC3-specific puncta (an autophagy maker). TUNEL staining assay showed that α-solanine significantly increased apoptosis in porcine oocytes confirmed by up-regulated the levels of BAX and CAPS3 genes. Further study revealed that exposure α-solanine (10 μM) to porcine oocytes induced ROS generation, reduced mitochondrial membrane potential. In addition, our results suggested that α-solanine (10 μM) significantly increased the levels of H3K36me3 and H3K27me3 in porcine oocytes. Taken together, these data indicated that α-solanine toxic impaired oocyte maturation and quality by inhibited cumulus cells expansion, increased abnormal spindle and CGs distribution rates, triggered autophagy/apoptosis occur, accumulated ROS, decreased mitochondrial membrane potential, and changed epigenetic modifications.

In pig, more than half of the recovered cumulus cell-oocyte complexes (COCs) have one or two layers of cumulus cells and are considered morphologically poor. If we could take full advantage of these poor quality COCs, we could potentially improve the efficiency of in vitro embryo production. During in vitro maturation, although some maturation factors are transmitted bidirectionally between the oocyte and cumulus cells of the same COC, transmission also occurs between different COCs. We hypothesized that morphologically poor COCs fail to undergo complete oocyte maturation due to their insufficient secretion of maturation factors. Here, we investigated whether co-culture with morphologically good COCs (having three or more layers of cumulus cells) could improve the maturation and utilization rates of morphologically poor COCs. Our results revealed that the oocyte maturation rate, glutathione level, embryo development capacity, blastocyst quality, and cumulus cell gene expression levels of BCL-2 and PCNA were similar in the co-culture and good quality-groups, and that these levels were all significantly higher than those in the poor quality-group. Our results strongly suggest that the co-culture strategy greatly improved the utilization rate of morphologically poor COCs without reducing their capacity for maturation and subsequent development.

Maturation-promoting factor (MPF) is well-known as cell cycle regulator during oocyte maturation and fertilization. MPF activity maintains high levels and arrest the cell cycle progression until fertilization. After fertilization, Anaphase-promoting complex/cyclosome (APC/C) mediated degradation of cyclin B causes decrease of MPF activity. One of the cytostatic factor (CSF), Emi2 inhibits APC/C activity by binding to APC/C-cdc20, therefore blocks the proteolysis of cyclin B. Degradation of Emi2 requires phosphorylation by Polo-like kinase 1 (Plk1). Thus recognition and phosphorylation of Emi2 by Plk1 are essential step for meiotic cell cycle resumption. In our previous research, we found that two phosphorylated threonine regions at amino acid position 152 and 176 in Emi2 are respectively contributed for recognition by polo-box domain of Plk1. Peptidomimetics 103-8 can block the interaction between Plk1-PBD and Emi2, and therefore meiotic maturation and meiosis resumption via parthenogenetic activation were impaired. However, major drawback of 103-8 was the limitation of penetration through the cell membrane. We synthesized the new peptidomimetics and checked bioavailability in mammalian oocyte by injection and media treatment. Medium treatment with peptidomimetics C-4, meiotic maturation has significantly decreased and meiotic resumption via parthenogenetic activation has perfectly impaired. For the next experiment, we are preparing X-ray crystallography to identify the binding modes between Plk1-PBD and peptidomimetics C-4.

Actin nucleation factors, which promote the formation of new actin filaments, have emerged in the last decade as key regulatory factors controlling asymmetric division in mammalian oocytes. Actin nucleators such as formin-2, spire, and the ARP2/3 complex have been found to be important regulators of actin remodeling during oocyte maturation. We found that actin nucleation promoting factor called WASP homolog-associated protein with actin, membranes and microtubules (WHAMM) play crucial roles in mouse oocyte maturation by generation of ER-associated actin filaments during meiotic spindle migrations. We also investigate regulatory mechanism of actin nucleator spire and discovered the novel roles of Zinc in regulating spire localization and cytoplasmic actin mesh formation. Another class of actin-binding proteins including cofilin, tropomyosin, capping proteins and tropomodulin, are thought to control actin cytoskeleton dynamics at various steps of oocyte maturation. The heterodimeric actin-capping protein (CP) binds to the fast-growing (barbed) ends of actin filaments and plays essential roles in various actin-mediated cellular processes. When CP is knockdowned or inhibitory component was overexpressed, asymmetric divisions of oocytes have been compromised. It turns out that knockdown or inhibition of CP deplete cytoplasmic actin mesh level, which have been known to be essential for maintain cytoplasmic actin mesh. Another actin binding proteins, tropomodulin 3 (Tmod3), binds to the slow-growing end of actin filaments and knockdown or expression deletion mutant of Tmod3 also decrease actin mesh level in maturing oocyte and it severely ablated asymmetric division of oocyte. Finally, tropomyosin 3, actin filament binding proteins protect actin filament from depolymerization, is also important to maintain cortex integrity in maturing oocyte, therefore showed the importance maintenance of actin filaments during oocyte maturation. Taken together, our study on various actin nucleator and actin binding study showed the importance of actin dynamics in mammalian oocyte maturation and early embryonic developments.

(-)-Epicatechin gallate (ECG) is a polyphenol compound of green tea exhibiting biological activities, such as antioxidant and anticancer effects. To examine the effect of ECG on porcine oocytes during in vitro maturation (IVM), oocytes were treated with 0-, 5-, 15-, and 25 μM ECG. After maturation, we investigated nuclear maturation, intracellular glutathione (GSH) and reactive oxygen species (ROS) levels and subsequent embryonic development after parthenogenetic activation (PA) and in vitro fertilization (IVF). After 42 hours of IVM, the 5 μM group exhibited significantly increased (p< 0.05) nuclear maturation (89.8%) compared with the control group (86.1%). However, the 25 μM group observed significantly decreased (p< 0.05) nuclear maturation (83.5%). In intracellular maturation assessment the 5-, 15-, and 25 μM groups had significantly increased (p< 0.05) GSH levels and decreased ROS levels compared with the controls. The 5- and 15 μM group showed significantly increased (p< 0.05) embryo formation rates and total cell number of blastocysts after PA (18% and 68.9, 15% and 85.1 vs. 12% and 59.5, respectively) compared with controls. Although the 25 μM group observed significantly lower blastocyst formation rates after PA (27.6% vs. 23.2%) than control group, the 5 μM group showed significantly increased blastocyst formation rates after PA (37.2% vs. 23.2%) compared to the control group. Furthermore, the 5 μM group measured significantly increased blastocyst formation rates (20.7% vs. 8.6%) and total cell number after IVF (88.3±1.5 vs. 58.0±3.6) compared to the control group. The treatment of 5 μM ECG during IVM affectively improved the porcine embryonic developmental competence by regulating intracellular oxidative stress during IVM.

Kisspeptin (Kiss) and its cognate receptor, kisspeptin receptor (KissR; G protein coupled receptor 54, GPR54), have recently been recognized as potent regulators of reproduction in teleosts. Additionally, leptin plays an important role in energy homeostasis and reproductive function in teleosts. The purpose of this study was to examine differences in the concentration of the hormones of the Kiss/KissR system and leptin and the expression of their underlying genes, all of which are involved in the sexual maturation of female goldfish, Carassius auratus, following treatment with Kiss. The expression levels of KissR increased after the Kiss injection. Furthermore, the peptide hormone leptin also increased after the injection (in vivo and in vitro). Additionally, the expression of GnRH and GTHs (GTHα, FSHβ, and LHβ) increased in the brain and pituitary (in vitro and in vitro). These results support the hypothesis that Kiss plays important roles in the direct regulation of the hypothalamus-pituitary-gonad axis and leptin in goldfish. Therefore, we suggest that Kiss system gene expression is correlated with energy balance and reproduction.

Growth differentiation factor 9 (GDF9) and bone morphogenetic protein 15 (BMP15) are oocyte-specific growth factors that regulate many critical processes involved in early folliculogenesis and oocyte maturation. In this study, effects of GDF9 and BMP15 treatment during in vitro maturation of porcine oocytes upon development after parthenogenetic activation were investigated. Neither GDF, BMP15 alone nor in combination affects the number and viability of cumulus cells or the rates of oocyte maturation and blastocyst development. However, the treatment of GDF9 on porcine oocytes increased the number of trophectodermal (TE) cells of blastocysts derived from activated oocytes (P<0.05). The treatment of BMP15 increased the cell numbers of both inner cell mass (ICM) and TE cells (P<0.05). The treatment with the combination of GDF9 and BMP15 further increased the numbers of ICM and TE cells, compared with GDF9 or BMP15 treatment alone (P<0.05). In conclusion, the treatment of GDF9 or BMP15 (or both) enhanced the quality of blastocysts via the increased number of ICM and/or TE cells.

The objectives of the present study were to select an effective basic medium including its hormone and protein supplementation for IVM of oocytes of indigenous zebu cows. The ovaries of cows were collected from slaughter house and the follicular fluid was aspirated from 2 to 8 mm diameter follicles. The COCs with more than 3 cumulus cell layers and homogenous cytoplasm were selected for maturation. The oocytes were matured in media for 24 hrs at 39℃ with 5% CO2 in humidified air. The maturation of oocytes was evaluated by examining the presence of first polar body under microscope. An efficient basic medium was determined after culturing COCs in either TCM 199 or SOF medium in Experiment 1. An efficient hormone supplementation was determined after culturing COCs in either FSH or gonadotrophin supplemented TCM 199 in Experiment 2. An efficient protein supplementation was determined after culturing COCs in either FBS or Oestrous cow serum (OCS) supplemented TCM 199 in Experiment 3. The oocyte recovery rate per ovary was 3.35. The overall rate of IVM was 74.6%. The maturation rate was 75.5±3.9 and 62.2±20.2% in TCM and SOF medium, respectively (P>0.05). The maturation rate of oocytes was significantly higher (76.6±13.2%) in FSH supplemented medium than gonadotrphin supplemented counterpart (69.7±10.8%) (P<0.05). The maturation rates of oocytes were 81.7±12.9 and 85.7±12.7% in medium supplemented with FBS and OCS, respectively (P>0.05). In conclusions, both TCM 199 and SOF supplemented with either FBS or OCS, and FSH may be used as medium for IVM of indigenous zebu oocytes in Bangladesh.

Gangliosides exist in glycosphingolipid-enriched domains on the cell membrane and regulate various functions such as adhesion, differentiation, and receptor signaling. Ganglioside GM3 by ST3GAL5 enzyme provides an essential function in the biosynthesis of more complex ganglio-series gangliosides. However, the role of gangliosides GM3 in porcine oocytes during in vitro maturation and early embryo development stage has not yet understood clear. Therefore, we examined ganglioside GM3 expression patterns under apoptosis stress during maturation and preimplantation development of porcine oocytes and embryos. First, porcine oocytes cultured in the NCSU-23 medium for 44 h after H2O2 treated groups (0.01, 0.1, 1 mM). After completion of meiotic maturation, the proportion MII (44 h) was significantly different among control and the H2O2 treated groups (76.8±0.3 vs 69.1±0.4; 0.01 mM, 55.7±1.0; 0.1 mM, 38.2±1.6%; 1 mM, P<0.05). The expressions of ST3GAL5 in H2O2 treated groups were gradually decreased compared with control group. Next, changes of ST3GAL5 expression patterns were detected by using immunofluorescene (IF) staining during preimplantation development until blastocyst. As a result, we confirmed that the expressions of ST3GAL5 in cleaving embryos were gradually decreased (P<0.05) according to the early embryo development progress. Based on these results, we suggest that the ganglioside GM3 was used to the marker as pro-apoptotic factor in porcine oocyte of maturation and early embryo production in vitro, respectively. Furthermore, our findings will be helpful for better understanding the basic mechanism of gangliosides GM3 regulating in oocyte maturation and early embryonic development of porcine in vitro.

체외 배양액에 성장호르몬 및 사이토카인의 첨가는 초기배 발육 및 생산된 배반포의 질에 영향을 미칠 수 있다. 본 연구는 돼지 유도만능줄기세포(porcine induced pluripotent stem cell, piPSC)의 조정배지(conditioned medium, CM)가 돼지 난자의 체외성숙 및 단위발생 후 초기배 발육에 미치는 영향을 검토하기 위하여 수행하였다. 난자-난구세포 복합체(cumulus-oocyte complex, COC)는 0(control), 25, or 50%의 줄기세포 배양액(stem cell medium, SM) 또는 CM이 첨가된 체외성숙 배양액으로 배양하였으며, 성숙된 난자는 활성화 유도 후 같은 농도의 SM 또는 CM을 첨가한 체외배양액에서 배양하였다. 체외 성숙율은 CM-25% 그룹에서 대조구보다 유의적으로 높았으나(p<0.05), 다른 SM 또는 CM 처리구와는 차이가 없었다. 배반포 형성율은 CM-25% 그룹(29.2%)에서 대조구(20.7%), SM-50%(19.6%) 및 CM-50%(23.66%) 처리구보다 유의적으로 높았다(p<0.05). 배반포에서의 세포수 및 세포사 비율은 SM-25% 그룹이 대조구에 비하여 유의적인 차이가 나타났다(p<0.05). 난자의 질과 연관되어 있는 유전자들(Oct4, Klf4, Tert 및 Zfp42)의 발현은 CM-25% 그룹에서 대조구보다 유의적으로 증가되었다(p<0.05). 따라서 본 실험의 결과 체외성숙(IVM) 및 체외발달(IVC) 배양액에 25% 수준의 CM의 첨가는 돼지 단위발생 난자의 배발달과 난자의 질적 향상에 기여하는 것으로 사료된다.

본 연구는 다시마 유리배우체의 분리, 재생 및 성숙 유도 조건을 구명하기 위하여, 4개의 온도 조건 (5, 10, 15, 20˚C), 4개의 조도조건 (5, 10, 20, 40 μmol m-2 s-1) 및 3개의 광주기 조건 (14 : 10, 12 : 12, 10 : 14 h L : D)에서 배양을 실시하였다. 다시마 암배우체의 생장은 15˚C, 20 μmol m-2 s-1, 10 : 14 h (L : D)에서 촉진되었으며, 수배우체의 생장은 15˚C, 5 μmol m-2s-1, 14 : 10 h (L : D)에서 촉진되었다. 암배우체의 성 성숙은 5˚C, 20~40 μmol m-2 s-1, 10 : 14 h (L : D)에서 촉진되었으며, 수배우체의 성 성숙은 15˚C, 40 μmol m-2 s-1, 10 : 14 h (L : D)에서 촉진되었다. 이러한 다시마 암수유리배우체의 재생 및 성숙 유도 조건은 다시마의 품종개발과 교잡육종을 위한 유리배우체 배양에 가장 기본적인 자료로 활용될 것이다.

The oocyte undergoes various events during maturation and requires many substances for the maturation process. Various intracellular organelles are also involved in maturation of the oocyte. During the process glucose is essential for nuclear and cytoplasmic maturation, and adenosine triphosphate is needed for reorganization of the organelles and cytoskeleton. If mitochondrial function is lost, several developmental defects in meiotic chromosome segregation and maturation cause fertilization failure. The endoplasmic reticulum, a store for Ca2+, releases Ca2+ into the cytoplasm in response to various cellular signaling molecules. This event stimulates secretion of hormones, growth factors and antioxidants in oocyte during maturation. Also, oocyte nuclear maturation is stimulated by growth factors such as epidermal growth factor. This review summarizes roles of organelles with focus on the Golgi apparatus during maturation in oocyte.

This study was designed to evaluate the effect of bovine serum albumin (BSA) in a maturation medium on oocyte maturation and embryonic development in pigs. Immature pig oocytes were matured for 44 h in a medium supplemented with 0.4% (w/v) BSA, 0.1% (w/v) polyvinyl alcohol (PVA), or 10% (v/v) pig follicular fluid (PFF). After IVM, oocytes reached metaphase II stage were activated for parthenogenesis (PA) or used as cytoplasts for somatic cell nuclear transfer (SCNT). Nuclear maturation (89.5%, 90.7% and 91.3% for BSA, PVA and PFF, respectively) and intraoocyte glutathione contents (1.20, 1.16 and 1.00 pixels/oocyte for BSA, PVA and PFF, respectively) were not altered by the macromolecules added to maturation medium. IVM of oocytes in a medium containing BSA (21.4%) and PVA (20.7%) showed significantly lower blastocyst formation after PA than culture in medium with PFF (39.2%). After SCNT, oocytes matured in medium with BSA showed decreased embryonic development to the blastocyst stage (9.2%) compared to those matured in medium with PFF (28.9%), while 23.6% of SCNT oocytes matured in medium with PVA developed to the blastocyst stage. When the effect of BSA in a maturation medium during the first 22 h and the second 22 h of IVM in combination with PFF or PVA was examined, PVA-BSA showed a higher nuclear maturation (94.1%) than BSA-PFF (84.5%). However, there was no significant difference in the blastocyst formation among tested combinations (47.3, 52.2, 50.0, 44.4 and 49.0% for PFF-PFF, PFF-BSA, PVA-BSA, BSA-PVA and BSA-PFF, respectively). Our results demonstrate that BSA and PVA added to maturation medium can support oocyte maturation comparable to PFF-supplemented medium. However, maturation of oocytes in a BSA-containing medium decreases embryonic development after PA and SCNT when compared with the medium supplemented with PFF.

Antioxidants, as reactive oxygen species scavengers, are one of the beneficial additives in serum-free defined culture medium. In this study, three separate experiments were performed to determine the effects of 3-hyroxyflavone added to the culture medium on the developmental competence of follicular bovine oocytes during in vitro maturation (IVM) and/or in vitro culture (IVC). The rate of blastocyst developed from oocytes cultured in IVM medium with 3 hyroxyflavone was significantly higher than that from control oocytes (39.0% vs. 26.3%, p<0.001), respectively. However, oocytes cultured in the medium with addition of 3-hyroxyflavone only at IVC period did not show significance in the blastocyst development when compared with control. When 3-hyroxyflavone was added to both IVM and IVC media, the rate of blastocyst formation was even significantly lower (21.1%) than control (26.5%; p<0.05). The present findings suggested that antioxidative activity of 3-hydroxyflavone added to only IVM medium beneficially affected the developmental competence of follicular bovine

In porcine embryo culture, one of reactive oxygen species (ROS) is harmful factors that are made during in vitro culture. To decrease the detrimental effect of ROS on embryo development, superoxide dismutase, catalase and glutathione peroxidase could be used in the embryo culture. Out of these antioxidants, 7,8-dihydroxyflavone (7,8-DHF) was reported its antioxidant effects to prevent the glutamine-triggered apoptosis. Therefore, this study was performed to investigate the most appropriate concentration of 7,8-DHF in porcine embryonic development. For that, 5 different concentration (0, 0.1, 0.5, 1, 2 uM) of 7,8-DHF was supplemented in the porcine IVM media and then maturation and blastocyst formation rates were compared among 5 groups. In maturation rates of porcine oocytes, significant higher maturation rates was shown in the 1.0 uM group compared with another 4 groups (83.3 ± 2.1 vs. 80.7 ± 1.4, 79.8 ± 1.4, 78.3 ± 1.2, 79.4 ± 1.6), respectively (P<0.05). In the embryo culture, 1.0 uM group also showed the significant higher cleavage rates (76.8 ± 3.1 vs. 62.1 ± 5.0, 65.7 ± 4.0, 68.6 ± 3.7, 64.6 ± 4.0%) and blastocyst formation rates - (39.6 ± 4.0% vs. 28.6 ± 3.3, 31.1 ± 3.9, 29.3 ± 2.5, 39.6 ± 4.0, 26.4 ± 3.2%), respectively (P<0.05). There was no significant difference among 5 groups in the cell number of blastocyst (P<0.05). In conclusion, supplement of 1.0 uM of 7,8-DHF was effective to increase the porcine embryonic development competence as antioxidant to ROS.