Resveratrol improved the developmental potential of oocytes after vitrification by modifying the epigenetics

Resveratrol (Res) has been reported to be able to improve oocyte vitrification because of its antioxidative properties. The objective of this study was to further assess the positive effect of Res addition on the developmental potential of vitrified mouse oocytes from the perspective of epigenetic alterations. First, 2 μM Res was chosen as the optimal concentration on the basis of its effects on survival and its antioxidative properties. We found that Res addition significantly promoted fertilization (63.8% vs. 42.9%) and blastocyst formation (68.3% vs. 50.2%) after oocyte vitrification. The quality of the derived blastocysts was also higher after Res treatment. Regarding epigenetic aspects, the expression of the important deacetylase SIRT1 was found to decrease significantly upon vitrification, but it was rescued by Res. The abnormal levels of H3K9 acetylation and DNA methylation in vitrified oocytes were restored by Res addition. Moreover, the expression of several imprinted genes was affected by oocyte vitrification. Among them, abnormal Gtl2 and Peg3 expression levels were restored by Res addition. Therefore, the methylation of their imprinted control regions (ICRs) was examined. Surprisingly, the abnormal patterns of Gtl2 and Peg3 methylation in blastocysts developed from vitrified oocytes were both restored by Res addition. Finally, the full‐term embryonic development showed that the birth rate was improved significantly by Res addition (56.2% vs. 38.1%). Collectively, Res was beneficial for the pre‐ and postimplantation embryonic development. Except for the antioxidative activity, Res also played a role in the correction of some abnormal epigenetic modifications caused by oocyte vitrification.     

Nuclear remodelling and the developmental potential of nuclear transferred porcine oocytes under delayed-activated conditions

It is still unclear whether nuclear envelope breakdown and premature chromosome condensation are essential for the reprogramming of the donor nucleus following somatic nuclear transfer. To address this, we determined the ability of delayed-activated or simultaneously activated porcine oocytes to undergo nuclear remodelling and development following somatic cell nuclear transfer. A small microtubule aster was observed in association with decondensed chromatin following nuclear transfer, suggesting the introduction of a somatic cell centrosome. In the delayed-activated condition, most fibroblast nuclei divided into two chromosome masses and two pronuclear-like structures following transfer into oocytes. In contrast, fibroblast nuclei in the simultaneously activated condition formed a large, swollen, pronuclear-like structure. Microtubule asters were organised in the vicinity of the nucleus regardless of the number of nuclei. More reconstructed oocytes developed to the blastocyst stage in the delayed-activated condition than in the simultaneously activated condition (p < 0.05). Nine piglets were born from two recipient sows following transfer of delayed-activated reconstructed oocytes, while none developed to full term in the simultaneously activated condition. Fingerprint analysis showed that the PCR-RFLP patterns of the nine offspring were identical to that of the donor pig. These results suggest that the activation of recipient oocytes during nuclear transfer probably relates to the nuclear remodelling process, which can affect the ability of embryos created by somatic cell nuclear transfer to develop.     

Optimal developmental stage for vitrification of parthenogenetically activated porcine embryos

The objective of this experiment was to determine the optimal developmental stage to vitrify in vitro cultured porcine parthenogenetically activated (PA) embryos. Embryos were vitrified by Cryotop on Day 4, 5 or 6 after oocyte activation (Day 0), and immediately after warming they were either time-lapse monitored for 24h or analyzed by differential staining. After warming, the embryos had to be cultured for at least 8h before their survival rates were stabilized. Both the survival rate at 8h and the hatching rate at 24h of Day 4 embryos were significant higher than those vitrified on Day 5 or 6 (P<0.05), no matter if they were morulae or blastocysts. These results demonstrate that porcine PA embryos can survive successfully after vitrification/warming, that the optimal time for vitrification was Day 4 for both morulae and blastocysts, and that 8h after warming was the time needed to make an early evaluation of porcine PA embryo survival.     

Cryopreservation of immature and in vitro matured porcine oocytes by solid surface vitrification

Cryopreservation of normal, lipid-containing porcine oocytes has had limited practical success. This study used solid surface vitrification (SSV) of immature germinal vesicle (GV) and mature meiosis II (MII) porcine oocytes and evaluated the effects of pretreatment with cytochalasin B, cryoprotectant type (dimethylsulfoxide (DMSO), ethylene glycol (EG), or both), and warming method (two-step versus single-step). Oocyte survival (post-thaw) was assessed by morphological appearance, staining (3',6'-diacetyl fluorescein), nuclear maturation, and developmental capacity (after in vitro fertilization). Both GV and MII oocytes were successfully vitrified; following cryopreservation in EG, more than 60% of GV and MII stage porcine oocytes remained intact (no significant improvement with cytochalasin B pretreatment). Oocytes (GV stage) vitrified in DMSO had lower (P<0.05) nuclear maturation rates (31%) than those vitrified in EG (51%) or EG+DMSO (53%). Survival was better with two-step versus single-step dilution. Despite high survival rates, rates of cleavage (20-26%) and blastocyst formation (3-9%) were significantly lower than for non-vitrified controls (60 and 20%). In conclusion, SSV was a very simple, rapid, procedure that allowed normal, lipid-containing, GV or MII porcine oocytes to be fertilized and develop to the blastocyst stage in vitro.     

The beneficial effects of insulin and metformin on in vitro developmental potential of porcine oocytes and embryos

To investigate whether insulin and/or metformin improve the developmental competence of porcine oocytes and embryos, insulin (100 ng/ml) and/or metformin (10(-5) M) were supplemented during in vitro maturation (IVM) and/or in vitro culture (IVC) periods. Insulin (33 to 34% vs. 21%) or insulin plus metformin (27 to 39% vs. 21%) significantly (P < 0.01) increased the rates of blastocyst formation, whereas metformin alone had no effect when added during the first half (0-22 h), the latter half (22-44 h), or the entire (0-44 h) maturation period. No additional effect of insulin plus metformin on increasing blastocyst formation was observed compared to insulin alone. When supplemented during IVC, insulin (34% vs. 23%) or insulin plus metformin (35% vs. 23%) significantly (P < 0.05) increased the rates of blastocyst formation, whereas metformin alone had no effect. Compared to insulin alone, no additional effect of insulin plus metformin on increasing blastocyst formation was observed. When added during the entire IVM and IVC, insulin (40% vs. 24%) or insulin plus metformin (52% vs. 21%) significantly increased the rates of blastocyst formation, whereas metformin alone had no effect. In addition, the effect of insulin was enhanced when supplemented with metformin compared to insulin alone (52% vs. 40%). After IVM, oocyte glutathione (GSH) content and tyrosine kinase activity were measured. Insulin significantly (P < 0.01) increased oocyte GSH content (6.2 pmol vs. 4.3 pmol) and metformin significantly (P < 0.01) enhanced the action of insulin on GSH content (7.3 pmol vs. 6.2 pmol) and tyrosine kinase activity (1.9 arbitrary units [AU] vs. 1.5 AU) when compared to insulin alone. In conclusion, insulin increased the developmental potential of porcine oocytes and embryos, and metformin enhanced the action of insulin when supplemented during the entire IVM and IVC. The effects of insulin and metformin were associated with oocyte GSH content and tyrosine kinase activity.     

Maintenance of meiotic arrest and developmental potential of porcine oocytes after parthenogenetic activation and somatic cell nuclear transfer

Several studies report that meiotic maturation of porcine oocytes can be reversibly preserved. The present study examined how long meiotic maturation can be suppressed. The first experiment determined the preservation medium suitable for reversibly suppressing meiotic maturation of porcine oocytes. The second experiment examined the in vitro developmental potential of oocytes maintained in meiotic arrest after parthenogenetic activation and nuclear transfer of somatic cells. Preservation of cumulus-oocyte complexes with NCSU-37 medium containing 10% follicular fluid, 1 mM dibutyryl cyclic AMP, and follicular shell pieces for 24-96 h at 39 degrees C did not affect oocyte maturation compared with controls (94-98% vs. 98%). The potential of parthenogenetically activated and nuclear-transferred oocytes maintained in meiotic arrest for 24-48 h to develop into blastocysts was not significantly different from that of controls (20-25% vs. 18% and 8-11% vs. 9%, respectively). The present study demonstrated that meiotic maturation of porcine oocytes can be suppressed after preservation for 48 h at 39 degrees C without decreasing oocyte maturation competence or the ability of oocytes to develop to at least the blastocyst stage.     

Exposure to androgens during in vitro maturation does not affect the developmental potential of porcine oocytes

Administration of exogenous androgens to pigs during the period of follicular development has been shown to positively affect ovulation rate and embryonic survival. The mechanisms of these actions are not known, but may include direct effects of androgens on the cumulus-oocyte complex (COC). The objective of this experiment was to assess the effects on embryonic development in vitro of exposure of COC to 0.26 and 2.6 microM testosterone (T) or dihydrotestosterone (DHT) during IVM. For IVM, COC were cultured for 44-46 h in protein-free tissue culture medium (TCM) 199 containing 10 IU/ml hCG and eCG and 10 ng/ml EGF. Oocytes were then stripped of cumulus cells, coincubated with 1 x 10(5) sperm/ml in modified TALP for 6 h, and cultured for 8 days in NCSU23. The proportions of oocytes that cleaved (Day 2) or developed to the morula (Day 6) or blastocyst (Day 6-8) stage were not different (P > 0.20) between oocytes exposed to androgens and oocytes not exposed to androgens. These results indicate that exposure to androgens during IVM does not affect the ability of oocytes to cleave or develop up to the blastocyst stage in vitro.     

Effect of melatonin treatment on the developmental potential of parthenogenetic and somatic cell nuclear-transferred porcine oocytes in vitro

Melatonin secreted from the mammalian pineal gland is a free-radical scavenger that protects tissues from cell damage. The present study examined the effects of addition of melatonin to the culture medium on the developmental potential of parthenogenetic and somatic cell nuclear-transferred (SCNT) porcine oocytes. Supplementation of the maturation medium with melatonin did not increase the maturation rate, the proportion of oocytes that cleaved and developed into blastocysts after parthenogenetic activation, or the blastocyst cell number compared to controls. When 10-7 M melatonin was added to the culture medium, the proportion of parthenogenetic oocytes that developed to the 2-cell and 4-cell stages was significantly higher than that of controls. The potential of melatonin-treated oocytes to develop into blastocysts was high but not significantly different from that of controls. The addition of 10-7 M melatonin to the culture medium did not increase the preimplantation development of SCNT oocytes. Melatonin treatment significantly reduced the levels of reactive oxygen species in 4-cell parthenogenetic and SCNT embryos, but did not reduce the proportion of apoptotic cells in parthenogenetic and SCNT blastocysts. Although the results indicated that parthenogenetic and SCNT melatonin -treated embryos had significantly lower levels of reactive oxygen species than controls, the potential of melatonin-treated embryos to develop into blastocysts was not significantly higher than that of controls, in contrast to previous reports. The beneficial effects of melatonin on the developmental potential of oocytes might depend on the culture conditions.     

The effects of time of first cleavage, developmental stage, and delipidation of nuclear-transferred porcine blastocysts on survival following vitrification

The effect of removing cytoplasmic lipid droplets (delipidation) at the 2-cell and developmental stages on the survival of porcine somatic cell nuclear-transferred blastocysts developed from the enucleated oocytes receiving somatic cells from kidney of an adult female after cryopreservation was examined. Vitrification was performed using the Cryoloop method with a small volume of medium (0.5 μl). To select 2-cell embryos with a high potential to develop into blastocysts, the relationship between the timing of the first cleavage and the developmental potential was examined. The potential of nuclear-transferred oocytes to develop into blastocysts in the intermediate-cleavage group (20–24 h after activation, 25%) was slightly or significantly (P < 0.05) higher than that in fast-cleavage (<20 h after activation, 13%) and slow-cleavage groups (>24 h after activation, 5%). Most non-delipidated blastocysts did not survive after thawing (0% for early-stage and 9% for advanced-stage blastocysts), but the survival rate of delipidated blastocysts 48 h after culture (54% and 72%, respectively) was not significantly different from that of non-vitrified blastocysts (80% and 92%, respectively). The survival rate of advanced-stage blastocysts after vitrification was slightly higher than that of early-stage blastocysts. The present study demonstrates that somatic cell nuclear-transferred porcine blastocysts developed from embryos selected at the 2-cell stage can be preserved by vitrification with a small volume of medium if the lipid droplets of the embryos are first removed.     

Relationship between bovine oocytes developmental competence and mRNA expression of apoptotic and mitochondrial genes following the change of vitrification temperatures and cryoprotectant concentrations

The present study analyzed the relationship between bovine oocytes developmental competence and mRNA expression of apoptotic and mitochondrial genes following the change of vitrification temperatures (VTs) and cryoprotectant agent concentrations (CPAs). Cumulus oocyte complexes were randomly divided into five groups: control, vitrified in liquid nitrogen (LN; −196 °C) with 5.6 M CPAs (LN 5.6 M), LN with 6.6 M CPAs (LN 6.6 M), liquid helium (LHe; −269 °C) with 5.6 M CPAs (LHe 5.6 M), and LHe with 6.6 M CPAs (LHe 6.6 M). After vitrification and warming, oocytes of vitrified and control groups were subjected to in vitro maturation (IVM), in vitro fertilization and in vitro culture. The blastocyst rate in LHe 5.6 M group was the highest among the four vitrified groups (13.7% vs. 9.4%, 1.3%, and 8.4%; P < 0.05). The mRNA expression level of 8 apoptotic- and 12 mitochondria-related genes were detected through qRT-PCR after IVM. Lower VT (LHe, −269 °C) positively affected the mRNA expression levels of apoptotic genes (BAD, BID, BTK, TP53, and TP53I3) and mitochondrial genes (COX6B1, DERA, FIS1, NDUFA1, NDUFA4, PRDX2, SLC25A5, TFB1M, and UQCRB), and reduced oxidative stress from freezing. Decreased CPAs (5.6 M) positively affected mRNA expression levels of apoptotic genes (BAD, BCL2A1, BID, and CASP3) in LHe vitrification but negatively affected apoptotic genes (BAD, BAX, BID, BTK, and BCL2A1) in LN vitrification. In conclusion, decreased VTs and CPAs in LHe vitrification may increase the blastocyst rate by changing the mRNA expression levels of these apoptotic and mitochondrial genes for the vitrified oocytes.     

Effect of follicular size on meiotic and developmental competence of porcine oocytes

In several species, the developmental competence of the oocyte is acquired progressively during late follicular growth, after the acquisition of the competence to resume and complete meiosis. In the pig, full meiotic competence of the oocyte is reached in ovarian follicles with a diameter of 3 mm or more. However, there is no information about developmental competence acquisition. We analyzed the ability of oocytes from three foll icular size classes to resume and complete meiosis, to be fertilized, and to develop in vitro to the blastocyst stage. A total of 941 follicles were dissected from slaughterhouse gilt ovaries and classified as small (<3 mm, n = 330), medium (3-5 mm, n = 373), or large (>5 mm, n = 238). The cumulus-oocyte complexes recovered from these follicles were submitted to in vitro maturation for 44 h in TCM199 supplemented with 10 ng/ml EGF, 400 ng/ml pFSH and 570 microM cysteamine; in vitro fertilized for 18 h in mTBM with 10(5) frozen-thawed percoll-selected sperms/ml; and developed for 7 days in mSOF. Samples of oocytes or presumptive zygotes were fixed and stained at the end of maturation and fertilization. Groups of oocytes were cultured for 3 h in the presence of 35S-methionine before or after maturation for SDS-PAGE analysis of protein neosynthesis. More oocytes originating from medium and large follicles were competent for maturation than oocytes from small follicles (77 and 86% of metaphase II, respectively, versus 44%, P < 0.05). More oocytes from medium and large follicles werepenetratedby spermatozoa during in vitro fertilization, resulting in significantly more oocytes presenting two or more pronuclei at the end of fertilization (73 and 77% for medium and large follicles, respectively, versus 53% for small follicles, P < 0.05). More oocytes from medium and large follicles developed to the blastocyst stage (14 and 23%, respectively) than those from small follicles (3%, P < 0.05), even if the development rates were corrected by the maturation or fertilization rates. It is concluded that a high proportion of oocytes harvested from follicles of less than 3 mm in the pig are not fully competent for meiosis and are cytoplasmically deficient for development.     

Maternal restraint stress diminishes the developmental potential of oocytes

Although studies of both humans and animals suggest detrimental effects of psychological (restraint) stress on reproduction, reports concerning the direct effect of psychological (restraint) stress on the oocyte are few and conflicting. In the present study, a restraint system that allows mice free intake of feed and water while restraining their movement was established, and effects of maternal restraint on oocyte competence were examined by observing embryo development in vitro and in vivo. The results indicated that restraint stress applied to both gonadotropin-stimulated and unstimulated females during oocyte growth and maturation increased their plasma cortisol level but impaired ovulation and oocyte developmental potential. Injection of cortisol also decreased oocyte developmental potential in both stimulated and unstimulated mice. However, whereas restraint stress reduced the plasma follicle-stimulating hormone (FSH) level of unstimulated mice, injection of cortisol did not. Because the stimulated mice had received very high doses of FSH and luteinizing hormone from injection with equine chorionic gonadotropin injection, the results suggested that whereas cortisol acts directly on the ovary to damage the oocyte, restraint stress impairs oocyte competence by actions on both the hypothalamic-pituitary-gonadal and the hypothalamic-pituitary-adrenal axes. However, exposing the cumulus-oocyte complexes (COCs) to physiological levels of cortisol did not affect oocyte nuclear and cytoplasmic maturation in vitro. Thus, cortisol might have impaired ovulation and oocyte potential by an indirect effect on ovarian tissues other than the COCs.     

Developmental competence and gene expression of immature oocytes following liquid helium vitrification in bovine

The objective of this study was to develop an effective ultra-rapid vitrification method and evaluate its effect on maturation, developmental competence and development-related gene expression in bovine immature oocytes. Bovine cumulus oocyte complexes were randomly allocated into three groups: (1) controls, (2) liquid nitrogen vitrification, and (3) liquid helium vitrification. Oocytes were vitrified and then warmed, the percentage of morphologically normal oocytes in liquid helium group (89.0%) was significantly higher (P < 0.05) than that of the liquid nitrogen group (81.1%). When the vitrified–thawed oocytes were matured in vitro for 24 h, the maturation rate in liquid helium group (50.6%) was higher (P < 0.05) than liquid nitrogen group (42.6%). Oocytes of liquid helium vitrification had higher cleavage and blastocyst rates (41.1% and 10.0%) than that of liquid nitrogen vitrification (33.0% and 4.5%; P < 0.05) after in vitro fertilization. Moreover, the expression of GDF9 (growth/differentiation factor-9), BAX (apoptosis factor) and ZAR1 (zygote arrest 1) was analyzed by quantitative real-time polymerase chain reaction (qRT-PCR) when the vitrified–thawed oocytes were matured 24 h. The expression of these genes was altered after vitrification. Expression of GDF9 and BAX in the liquid helium vitrification group was not significantly different from that of the control, however there were significant differences between the liquid nitrogen vitrification group and control. In conclusion, it was feasible to use liquid helium for vitrifying bovine immature oocytes. There existed an association between the compromised developmental competence and the altered expression levels of these genes for the vitrified oocytes.     

Calcium concentration in vitrification medium affects the developmental competence of in vitro matured ovine oocytes

The present study was designed to determine whether different calcium concentrations in the vitrification solutions could improve the developmental competence of in vitro matured ovine oocytes after cryopreservation. In vitro matured oocytes were vitrified with 16.5% ethylene glycol (EG) + 16.5% dimethylsulfoxide (DMSO) vitrification media. The base media contain different calcium concentrations, so that five experimental groups were obtained: TCM/FCS (TCM 199 + 20% fetal calf serum (FCS), [Ca²⁺] 9.9 mg/dl); PBS/FCS (Dulbecco Phosphate Buffered Saline (PBS) + 20% FCS, [Ca²⁺] 4.4 mg/dl); PBS^{CaMg free}/FCS (PBS without Ca²⁺ and Mg²⁺ + 20% FCS [Ca²⁺] 2.2 mg/dl); PBS/BSA (PBS + 0.4% bovine serum albumin (BSA), [Ca²⁺] 3.2 mg/dl) and PBS^{CaMg free}/BSA (PBS without Ca²⁺ and Mg²⁺ +0.4% BSA, [Ca²⁺] 0.4 mg/dl). After warming, the oocytes from the five experimental groups were assessed for survival, spontaneous parthenogenetic activation and developmental capacity via in vitro fertilization. Oocyte survival after vitrification procedures was better preserved in group PBS^{CaMg free}/FCS compared to the others (P < 0.05). In addition, a positive correlation was found between calcium concentration in vitrification solutions and spontaneous parthenogenetic activation (correlation index 0,82; P < 0.001). Development of vitrified oocytes was significantly affected by vitrification media composition (P < 0.01). In particular, oocytes from group PBS^{CaMg free}/FCS led to higher cleavage rates and blastocyst rate compared to the others. Our data showed that lowering calcium concentration in the vitrification medium improves the blastocyst rate of vitrified ovine oocytes, probably reducing the effect of EG + DMSO during vitrification. On the contrary, the replacement of FCS with BSA dramatically reduces the developmental potential of these oocytes.     

Maturity at collection and the developmental potential of rhesus monkey oocytes

The purpose of this study was to evaluate the in vitro fertilizability of rhesus monkey oocytes and the developmental capacity of the resulting embryos as they relate to oocyte maturation at the time of follicular aspiration. Animals were hyperstimulated with human follicle-stimulating hormone (hFSH) and human luteinizing hormone (hLH), with follicular aspiration performed 27 h after administration of an ovulatory stimulus (1000 IU human chorionic gonadotropin [hCG] or 3 x 100 micrograms gonadotropin-releasing hormone [GnRH]). In 7 animals exhibiting a continuously rising pattern of serum estradiol through Day 10 of hyperstimulation, 45 germinal vesicle-intact (GV), 106 metaphase I (MI), and 24 metaphase II (MII) oocytes were collected and cultured in vitro. Upon reaching MII, oocytes were inseminated with 5 x 10(4) motile sperm/ml. Twenty-four percent of GV oocytes cultured in vitro matured to MII with 11 inseminated and none fertilized. Seventy-three percent of MI oocytes matured to MII in vitro with 50% inseminated and 32% fertilized. Oocytes collected at MII stage and inseminated underwent fertilization at a high rate of efficiency (93%). Pronuclear to 8-cell stage embryos were frozen and, upon thawing, 67% (10/15) survived with all blastomeres intact. Frozen-thawed embryos (2- to 6-cell) were transferred to the oviducts of 4 recipients (2 embryos/recipient) during the early luteal phase (1-3 days post LH surge) of natural menstrual cycles. Three twin pregnancies resulted. Thus, a positive correlation exists between the degree of nuclear maturation of rhesus monkey oocytes at collection and their potential for fertilization in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)     

猪胚胎玻璃化冷冻保存技术的优化

在以往工作的基础上本研究对现有猪胚胎玻璃化冷冻保存技术进行了优化。以巴马小型猪为供体,采用超数排卵技术,采集5~6日龄的胚胎(囊胚/桑椹胚),比较冷冻方法、胚胎承载工具胚胎、透明带处理和冷冻胚胎移植受体对猪胚胎冷冻效果的影响。结果表明,冷冻方法I[胚胎首先在冷冻液1(TCM199+20%FBS+10%EG+10%DMSO)中平衡3min,然后立即转入冷冻液2(TCM199+20%FBS+20%EG+20%DMSO+0.4mol/LSUC)中并在1min内装管(每管含2~6枚胚胎),直接投入液氮保存]与冷冻方法II[透明带完整的胚胎在NCSU23(含7.5μg/mLCB)培养液中平衡25min,13000×g离心12~13min,然后在含2mol/LEG的NCSU23中平衡5min,再在含8mol/LEG+7%PVP的NCSU23中快速漂洗,装进OPS/GMP管,放入液氮保存]冷冻效果没有显著差异;GMP法能显著提高冷冻胚胎存活率(83.8%vs77.6%,P<0.05)和囊胚细胞数(47.5vs53.1,P<0.05);以0.5%链蛋白酶(Pronase)处理透明带10s,虽然对猪胚胎存活率没有显著影响,但能...