Cytoplasmic glutathione regulated by cumulus cells during porcine oocyte maturation affects fertilization and embryonic development in vitro

It is generally accepted that cumulus cells support the nuclear maturation of mammalian oocytes. In the present study, we examined relationships between the cytoplasmic glutathione (GSH) content of porcine oocytes, and oocyte nuclear maturation, fertilization or subsequent embryonic development. Cumulus-oocyte complexes (COCs; control group) and oocytes denuded of cumulus cells after collection (DO 0h group) were cultured for 24h with dibutyryl cAMP, eCG and hCG (first culture step) and then for a further 20h without supplements (second culture step; 44h total culture). After the first culture step, some of the COCs were denuded, either completely (DO 24h group) or partly (H-DO 24h group), and then matured by the second culture step. Also, in the second culture step, some DOs were co-cultured with cumulus cells that had been pre-cultured for 24h (DO 24h+CC group). The maturation rates of all the cumulus-removed groups (DO 0h, DO 24h, H-DO 24h and DO 24h+CC groups) were lower (34.3-45.0%) than that of the control group (64.5%; P<0.05). The GSH contents of matured oocytes in the completely denuded groups (DO 0h, DO 24h and DO 24h+CC groups) were lower (4.03-5.26pmol/oocyte) than that of the control group (9.60pmol/oocyte; P<0.05); however, the H-DO 24h group had an intermediate value (7.0pmol/oocyte). The male pronuclear formation rates of completely denuded oocytes were lower (41.4-59.3%) than that of the control group (89.4%; P<0.05), whereas the H-DO 24h group had an intermediate rate (80.0%). The blastocyst formation rates of the completely denuded oocytes were lower (3.0-4.5%) than that of the control group (19.9%; P<0.05), and the H-DO 24h group again had an intermediate rate (11.6%). The GSH content was correlated with the rates of male pronuclear formation (P<0.01) and blastocyst formation (P<0.01), and also with the number of cells per blastocyst (P<0.01). In conclusion, we inferred that GSH synthesized by intact cumulus cells during maturation culture improved oocyte maturation and played an important role in fertilization and embryonic development.     

Effect of adding reduced glutathione during insemination on the development of porcine embryos in vitro

This study evaluated the effect of adding reduced glutathione (GSH) during sperm washing and insemination on the subsequent fertilization dynamics and development of IVM porcine oocytes. Follicular oocytes were matured in vitro in NCSU 23 medium with porcine follicular fluid, cysteine and hormone supplements for 22 h. They were then matured in the same medium but without hormones for another 22 h. Matured oocytes were stripped of cumulus cells and co-incubated with frozen-thawed spermatozoa for 5 h. Putative embryos were cultured in NCSU 23 with BSA for either 7 h to examine fertilization parameters or 6 d to evaluate cleavage (2 d) and blastocyst rates. In Experiment 1, GSH was added to the insemination medium at 0, 0.125, 0.25 or 0.5 mM. The presence of GSH during insemination did not affect (P>0.05) rates of penetration, polyspermy, male pronuclear formation or cleavage, but did increase (P<0.05) blastocyst formation rates when added at concentrations of 0.125 (36%) and 0.25 mM (34%) compared with that of the control (0 mM; 19%). However, the numbers of inner cell mass and trophectoderm cells of blastocysts were unaffected by GSH treatment (P>0.05). The presence of GSH during insemination was found not to significantly increase intracellular glutathione concentrations of oocytes (P>0.05). In Experiment 2, addition of GSH (0.25 mM) during sperm washing did not affect cleavage or blastocyst formation rates or cell numbers (P>0.05). In conclusion, the presence of GSH during insemination improves the developmental competence of IVM pig oocytes in a dose-dependent manner.     

Protection of porcine oocytes against apoptotic cell death caused by oxidative stress during In vitro maturation: role of cumulus cells

The present study was conducted to examine the protective effect of cumulus cells on oocyte damage caused by reactive oxygen species (ROS), generated by the hypoxanthine-xanthine oxidase (XOD) system, during in vitro maturation of porcine oocytes. Cumulus-oocyte complexes (COCs) and cumulus-denuded oocytes (DOs) were cultured for 44 h in NCSU37 supplemented with cysteine, gonadotropins, 10% porcine follicular fluid, and hypoxanthine in the presence or absence of XOD. DNA cleavage and damage were analyzed using the terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) method and single cell microgel electrophoresis (comet) assay, respectively, and caspase-3 activity and glutathione (GSH) content were measured in each experimental group. Exposure of DOs to ROS resulted in meiotic arrest and the increase of degenerated oocytes. These degenerated DOs underwent apoptosis, as shown by the TUNEL-positive reaction within their germinal vesicles and the activation of caspase-3. The length of DNA migration in DOs treated with XOD was significantly longer than that of untreated DOs (P: < 0.05). However, irreparable cell damage caused by ROS was not observed in COCs, and no difference was observed in the caspase-3 activity of both COCs treated with and without XOD. A significantly (P: < 0.05) high level of GSH was found in COCs after 44 h of culture, compared with that of oocytes freshly isolated from their follicles, whereas GSH content in DOs markedly decreased after treatment with or without XOD. These findings suggest that cumulus cells have a critical role in protecting oocytes against oxidative stress-induced apoptosis through the enhancement of GSH content in oocytes.     

Porcine cumulus cell influences ooplasmic mitochondria-lipid distributions, GSH-ATP contents and calcium release pattern after electro-activation

The objective was to explore mechanisms of the influence of porcine cumulus cells (CC) on oocyte maturation. Immature porcine oocytes were matured in groups of denuded oocyte (DOs), cumulus-oocyte complexes (COCs), denuded oocytes co-cultured with CC (DoCC), or with cumulus-oocyte complexes (DoCOCs). Ooplasmic mitochondria-lipid distributions, glutathione (GSH)-adenosine triphosphate (ATP) contents, calcium release pattern, and developmental competence after parthenogenetic activation were assessed after IVM. The portion of matured oocytes after IVM and the developmental competence and GSH content in single oocytes were lower in DOs than in COCs (P < 0.05). In contrast, the maturation rate and development in DoCOCs and COCs were higher than in DoCC and DOs (P < 0.05). The blastocyst rate in DoCOCs was higher than in DOs (P < 0.05), and ATP content in COCs was higher than in all other groups (P < 0.01). In addition, the rate of oocytes with damaged oolemma in DOs (35%) was significantly higher than in COCs (3%), DoCOCs (7%), and DoCC (10%). The rate of oocytes with evenly distributed mitochondria was 70% in DOs, which was significantly lower than in COCs and DoCC (89 and 84%, respectively). The percentage of oocytes with normal lipid droplets distributions in COCs (70%) was significantly higher than in three other groups, whereas both percentages in DoCC and DoCOCs were higher than in DOs (P < 0.05). The duration of [Ca²⁺] rise in DOs was longer than in three other groups, whereas the duration was shortest in COCs. The amplitude of the [Ca²⁺] rise in DOs was significantly lower than in other groups (P < 0.05), but the amplitude did not differ significantly among DoCC, DoCOCs and COCs. In conclusion, the presence of porcine CC during IVM functionally affected ooplasmic mitochondria-lipid distributions and GSH-ATP contents, which may affect the calcium release pattern and developmental competence of oocytes after electro-activation.     

Effects of cysteamine, fsh and estradiol-17beta on in vitro maturation of porcine oocytes

Porcine cumulus-oocyte complexes (COCs) were cultured for 48 h with addition or absence of exogenous estradiol-17beta (E2; 1 microg/mL) in the maturation medium (mM199). The medium was supplemented with sodium pyruvate (0.1 mg/mL), 10% (v/v) FCS, various concentrations of FSH (0, 1 and 10 microg/mL) and with or without cysteamine (150 microM). When supplemented with E2, cysteamine enhanced the rates of germinal vesicle breakdown (GVBD) and maturation to metaphase-II (M-II) in COCs cultured in the medium with 0 and 1 microg/mL FSH (P<0.05). Among COCs cultured with FSH, oocytes cultured with 1 microg/mL FSH and E2 but without cysteamine showed the lowest rates of GVBD and M-II. The rates were, however, significantly increased when cysteamine was added to the same medium or by increasing FSH concentration to 10 microg/mL in the maturation medium. E2 significantly inhibited the rates of GVBD and M-II in COCs cultured without FSH and cysteamine (a group of oocytes with spontaneous maturation). When COCs were cultured in TCM 199 with 1 or 10 microg/mL FSH, with or without E2 (1 microg/mL) and fertilized in vitro, the rates of male pronucleus formation were not increased by increasing FSH concentration, but the addition of cysteamine to the maturation medium significantly enhanced the rates in the same FSH treatment. The results indicate that E2 inhibits spontaneous GVBD and maturation to M-II of porcine oocytes and that a low concentration of FSH (1 microg/mL) is not sufficient to induce full nuclear maturation, compared with 10 microg/mL FSH, but that it can complete nuclear maturation with cysteamine and E2. However, the cytoplasmic maturation is promoted only by the addition of cysteamine in the medium.     

Presence of granulosa cells during oocyte maturation improved in vitro development of IVM-IVF bovine oocytes that were collected by ultrasound-guided transvaginal aspiration

The effects of granulosa cells in maturation media on male pronuclear formation and in vitro development of in vitro-matured and fertilized (IVM-IVF) bovine oocytes were examined. In Experiment 1, cumulus-oocyte complexes (COCs) were aspirated from follicles of slaughterhouse ovaries and classified into 4 morphological categories according to the surrounding cumulus cells: Grade 1 (> 4 layers), Grade 2 (3 to 4 layers), Grade 3 (1 to 2 layers) and Grade 4 (denuded). Oocytes were co-cultured with or without granulosa cells (1 x 10(6) cells/ml) for 21 to 22 h. At 18 and 192 h after insemination, the abilities of oocytes to form a male pronucleus and develop up to the blastocyst stage in vitro were determined, respectively. The presence of granulosa cells during maturation did not affect (P < 0.05) the ability of oocytes in Grades 1 and 2 to form a male pronucleus and to develop to the blastocyst stage in Grades 1 and 4. However, the incidence of male pronuclear formation in Grades 3 and 4 and in vitro development to the blastocyst stage in Grades 2 and 3 was higher (P < 0.05) when COCs were cultured in the presence of granulosa cells than when cultured in the absence of granulosa cells. In Experiment 2, COCs collected by ultrasound-guided aspiration were co-cultured with or without granulosa cells, fertilized and cultured as described above. The incidence of blastocysts at 192 h after insemination was higher (P < 0.05) when COCs were cultured for maturation in the presence of granulosa cells (24%) than in the absence of granulosa cells (12%). These results demonstrate that supplementation of maturation medium with granulosa cells improves the quality of oocytes with relatively few cumulus cell layers, as determined by male pronuclear formation and in vitro development. We also conclude that this supplementation effectively improves the developmental ability of bovine IVM-IVF oocytes that were collected by ultrasound-guided transvaginal aspiration.     

The influence of cumulus cells during in vitro fertilization of buffalo (Bubalus bubalis) denuded oocytes that have undergone vitrification

The aim of this work was to evaluate whether providing a support of cumulus cells during IVF of buffalo denuded oocytes submitted to vitrification-warming enhances their fertilizing ability. In vitro matured denuded oocytes were vitrified by Cryotop in 20% EG + 20% of DMSO and 0.5 M sucrose and warmed into decreasing concentrations of sucrose (1.25 M-0.3M). Oocytes that survived vitrification were fertilized: 1) in the absence of a somatic support (DOs); 2) in the presence of bovine cumulus cells in suspension (DOs+susp); 3) on a bovine cumulus monolayer (DOs+monol); and 4) with intact bovine COCs in a 1:1 ratio (DOs+COCs). In vitro matured oocytes were fertilized and cultured to the blastocyst stage as a control.An increased cleavage rate was obtained from DOs+COCs (60.9%) compared to DOs, DOs+susp (43.6 and 38.4, respectively; P < 0.01) and DOs+monol (47.5%; P < 0.05). Interestingly, cleavage rate of DOs+COCs was similar to that of fresh control oocytes (67.8%). However, development to blastocysts significantly decreased in all vitrification groups compared to the control (P < 0.01).In conclusion the co-culture with intact COCs during IVF completely restores fertilizing capability of buffalo denuded vitrified oocytes, without improving blastocyst development.     

γ-glutamyl transpeptidase of spermatozoa may decrease oocyte glutathione content at fertilization in pigs

The presence of γ-glutamyl transpeptidase (GGT) in boar spermatozoa and the potential role of the GGT at sperm penetration were examined using in vitro matured porcine oocytes. In the first experiment, GGT of boar spermatozoa was examined using a histochemical stain. GGT was detected in the midpiece and the acrosome regions of boar spermatozoa. In the second experiment, porcine oocytes matured in vitro were injected with approximately 40 pl of 10 mM HEPES solution alone or HEPES containing 0.5 U/ml GGT or 1 mM guanosine-5′-0-(3′-thiotriphosphate) (GTP-γ-S; G-protein activator). When GGT was injected into oocytes, the incidence of oocytes activated (23.7 ± 1.4%) was not different (P > 0.05) from HEPES-injected controls (24.9 ± 1.3%) at 6 h after injection. Injected GTP-γ-S, however, activated 76.0 ± 5.3% of oocytes at 6 h after injection, but extrusion of the second polar body was very low (2.8 ± 4.8%). Total content of glutathione (GSH) and glutathione disulfide (GSSG) did not differ (P > 0.05) between GTP-γ-S injected oocytes (4.2 ± 0.7 pmol/oocyte) and noninjected oocytes (4.0 ± 0.1 pmol/oocyte) at 6 h after injection. However, the total content of GSH and GSSG was lower (P < 0.01) in GGT-injected oocytes (2.1 ± 0.2 pmol/oocyte) than HEPES-injected oocytes (3.4 ± 0.2 pmol/oocyte) at 6 h after injection. In the third experiment, in vitro matured porcine oocytes were injected with about 40 pl of 10 mM HEPES solution alone or HEPES containing 0.5 U/ml GGT and then inseminated. At 12 h after insemination, the incidence of male pronuclear formation was significantly lower in oocytes injected with GGT as compared with injected control oocytes. These results demonstrated that (1) GGT was present on the surface of spermatozoa, (2) total oocyte content of GSH and GSSG was decreased by microinjection of GGT but not by that of GTP-γ-S, and (3) male pronuclear formation was inhibited in GGT-injected oocytes. These results suggest that sperm GGT may be a limiting factor for male pronuclear formation in polyspermic oocytes. © 1996 Wiley-Liss, Inc.     

Improvement in bovine embryo production in vitro by treatment with green tea polyphenols during in vitro maturation of oocytes

The present study examined the effect of green tea polyphenols (GTP) during in vitro maturation (IVM) of bovine oocytes on in vitro fertilization (IVF) parameters, intracellular glutathione (GSH) concentration and subsequent embryo development. Cumulus-oocyte complexes were aspirated from the ovaries derived from slaughterhouse and cultured in modified synthetic oviduct fluid (m-SOF) supplemented with 0-25 microM GTP for 24h. After IVM, cumulus-free oocytes were coincubated with frozen-thawed spermatozoa for 15-18 h. Putative embryos were transferred to m-SOF and cultured for 8 days (Experiment 1). In comparison with the absence of GTP, treatment with GTP at a concentration of 15 microM showed a significant increase in the proportion of pronuclear (PN) formation after sperm penetration (65% versus 80%, P<0.05). No significant differences in the rates of sperm penetration and polyspermic fertilization were found among treatments. The cleavage rate at 48 h of in vitro insemination showed no difference in oocytes matured with or without GTP. However, compared to no addition (23.5%), the presence of 15 and 20 microM GTP during IVM significantly (P<0.05) increased the proportion of blastocysts (38.1% and 36.4%) on day 9 of in vitro insemination. A further increase from 20 to 25 microM GTP reduced (P<0.05) the proportion of blastocysts. In Experiment 2, after IVM, oocytes were fixed to analyze the GSH concentration. Compared to no addition, a higher (P<0.05) level of GSH was found in oocytes matured with 15 microM GTP and compared with 15 microM GTP, GSH was low (P<0.05) at 20 and 25 microM GTP. The results suggest that at certain concentrations of GTP (15 microM) in IVM medium has beneficial effects on subsequent embryo development, and is correlated with intracellular GSH level in bovine oocytes.     

Effects on in vitro embryo development and intracellular glutathione content of the presence of thiol compounds during maturation of prepubertal goat oocytes

The low number of embryos produced from in vitro matured, fertilized, and cultured (IVM-IVF-IVC) oocytes of prepubertal goat is mainly due to a low incidence of sperm head decondensation at fertilization (Martino et al., 1995: Theriogenology 43:473-485; Mogas et al., 1997: Theriogenology 48:815-829). Thiol compounds stimulate glutathione (GSH) synthesis and improve the rates of male pronucleus (MPN) formation and embryo development. The present study was carried out to determine whether supplementation of the IVM medium with 100 microM of cysteamine, 100 microM of beta-mercaptoethanol, 0.57 mM of cysteine, and 0.57 mM cystine might improve the embryo development and intracellular GSH level of prepubertal goat oocytes. After 27 hr post IVM, a sample of oocytes was frozen and the intracytoplasmic GSH content was evaluated by spectrophotometry. IVM-oocytes were inseminated with fresh semen and cultured in SOF medium. Only the addition of cysteamine to IVM media significantly improved the percentage of the morula plus blastocyst yield compared to the control group (oocytes matured in absence of thiol compounds) (22.2 vs. 6.4%, respectively; P < 0.05). The percentage of expanded blastocysts in cysteamine and control groups was 13.0 and 2.6%, respectively, and the mean cell number per blastocyst was 86.8 and 60.5, respectively. None of the other thiol compounds studied significantly improved the percentage of embryos obtained. It has been demonstrated that prepubertal goat oocytes synthesize GSH during IVM and that thiol compounds increase this GSH synthesis. In conclusion, only the addition of 100 microM of cysteamine to the maturation medium improves embryo development from prepubertal goat oocytes although all the thiol compounds used in this study increased intracellular GSH content.     

Glutathione content and embryo development after in vitro fertilisation of pig oocytes matured in the presence of a thiol compound and various concentrations of cysteine.

The present study examined the effect of different concentrations of cysteine in the presence of a thiol compound, beta-mercaptoethanol (BME), during in vitro maturation (IVM) of pig oocytes on cumulus expansion, nuclear maturation, intracellular glutathione (GSH) level and subsequent embryonic development after in vitro fertilisation (IVF). In experiment 1, oocytes were matured in NCSU 23 medium containing 10% porcine follicular fluid, 25 microM BME, 0.5 microgram/ml LH, 0.5 microgram/ml FSH and 0, 0.1, 0.2 or 0.4 mg/ml cysteine for 20-22 h and then without hormonal supplements for an additional 20-22 h. After culture, cumulus cells were removed and a proportion of oocytes fixed to examine the rate of nuclear maturation. The remaining oocytes were co-incubated with spermatozoa for 5-6 h and putative zygotes were transferred to NCSU 23 medium containing 0.4% bovine serum albumin for 144 h. A proportion of putative zygotes were fixed 12 h after insemination to examine fertilisation parameters. In experiment 2, oocytes were matured as in experiment 1 and the GSH content was measured by a DTNB-GSSG reductase recycling assay. No mean differences among treatments were observed in nuclear maturation (78-89%). The mean differences in penetration rate (69-77%), polyspermy rate (31-40%), male pronuclear formation rate (93-96%) or mean number of sperm per oocyte (1.5-1.8) were not affected by the presence or absence of cysteine during oocyte maturation. Also no difference was observed in cleavage rates 48 h after insemination. However, compared with no addition (19%), the presence of 0.1-0.4 mg/ml cysteine during IVM increased (p < 0.001) the proportion of blastocysts (32-39%) at 144 h. In comparison with controls (5.6 pmol/oocyte), the GSH content of oocytes matured in the presence of cysteine was significantly (p < 0.001) higher (13-15 pmol/oocyte) with no mean differences among different cysteine concentrations. The results indicate that in the presence of a thiol compound, supplementation of IVM medium with cysteine can increase the GSH level and improve the developmental competence of pig oocytes following fertilisation. Further, no effect on either GSH level or embryo development was observed by increasing the levels of cysteine supplementation from 0.1 to 0.4 mg/ml.     

Roles of gap junctional communication of cumulus cells in cytoplasmic maturation of porcine oocytes cultured in vitro

Cumulus cells of the oocyte play important roles in in vitro maturation and subsequent development. One of the routes by which the factors are transmitted from cumulus cells to the oocyte is gap junctional communication (GJC). The function of cumulus cells in in vitro maturation of porcine oocytes was investigated by using a gap junction inhibitor, heptanol. Cumulus-oocyte complexes (COCs) were collected from the ovaries of slaughtered gilts by aspiration. After selection of COCs with intact cumulus cell layers and uniform cytoplasm, they were cultured in a medium with 0, 1, 5, or 10 mM of heptanol for 48 h. After culture in vitro, one group of oocytes was assessed for nuclear maturation and glutathione (GSH) content, and another group was assigned to in vitro fertilization and assessed for the penetrability of oocytes and the degree of progression to male pronuclei (MPN) of penetrated spermatozoa. At the end of in vitro maturation, the oocytes reached metaphase II at a high rate (about 80%) regardless of the presence of heptanol at various concentrations. Cumulus cell expansion and the morphology of oocytes cultured in the medium with heptanol were similar to those of control COCs matured without heptanol. The amount of GSH in cultured oocytes tended to decrease as the concentration of heptanol in the medium was increased. Although there was no difference in the rates of penetrated oocytes cultured in media with different concentrations of heptanol, the proportion of oocytes forming MPN after insemination decreased significantly (P < 0.01) at all concentrations tested. A higher rate of sperm (P < 0.01) failed to degrade their nuclear envelopes after penetration into the oocytes that were treated with heptanol. GJC between the oocyte and cumulus cells might play an important role in regulating the cytoplasmic factor(s) responsible for the removal of sperm nuclear envelopes as well as GSH inflow from cumulus cells.     

Development of normal mice after microinjection of round spermatids into oocytes stored at room temperature for one day

Early studies have shown that some mouse cumulus-oocyte complexes (COCs) stored at room temperature for 24 hr still retained full developmental potential. In this study, we stored mouse COCs and denuded oocytes (DOs) at room temperature for 24 hr and activated these oocytes with 10 mM SrCl(2) or injected the oocytes with round spermatids. We found that DOs were better than COCs when stored at room temperature for 1 day and more normal oocytes were obtained when COCs were stored in more H-CZB medium at room temperature for 1 day. The rates of normal oocytes were significantly different after preservation with three schemes (90.01%, 55.81%, and 86.70%, P < 0.05). Our results also indicated that oocytes stored at room temperature for 1 day were fertilized normally (extrusion of the second polar body and formation of male and female pronuclei [PN]) after microinjection of round spermatid nuclei, and that the existence of cumulus cells (CCs) during oocyte storage did not significantly influence the early cleavage but had a detrimental effect on later embryo development and full-term development. After fertilization, most embryos developed to two-cell stage after being cultured for 24 hr, and the development rates of four- to eight-cell embryos between two experiments were similar. However, the rates of morula/blastocyst formation were significantly different (47.44% and 26.27%, respectively, P < 0.05). The birth of four healthy pups from stored DOs indicated that the storage of DOs at room temperature for 1 day might become a practical procedure in mammalian reproduction.     

Synergetic effects of epidermal growth factor and estradiol on cytoplasmic maturation of porcine oocytes

This study was conducted to examine the effect of epidermal growth factor (EGF) and 17beta-estradiol (E2) on nuclear and cytoplasmic (male pronuclear formation and early embryo development) maturation of porcine oocytes. Oocytes were aspirated from antral follicles and cultured in modified TCM-199 medium supplemented with 0.57 mM cysteine, 10 IU/ml eCG, 10 IU/ml hCG, with or without EGF and/or E2. In vitro fertilisation of matured oocytes was performed in a modified Tris-buffered medium (mTBM) with frozen-thawed ejaculated spermatozoa. Oocytes were transferred to NCSU-23 supplemented with 0.4% bovine serum albumin at 6 h after in vitro fertilisation. Significantly higher (p < 0.05) rates of nuclear maturation, pronuclear formation and cleavage (91.7%, 65.2% and 37.3%, respectively) were observed when oocytes were cultured in the medium containing both EGF (10 ng/ml) and E2 (1 microg/ml) than in the medium supplemented with either EGF or E2 or without both. Intracellular glutathione concentration in the oocytes cultured in the medium containing both E2 and EGF was also significantly higher (12.1 pmol per oocyte) than that of oocytes cultured in the medium with E2 or EGF alone or without both. These findings suggested that EGF and E2 have a synergestic effect on both nuclear and cytoplasmic maturation of porcine oocytes.     

Low concentrations of MEM vitamins during in vitro maturation of porcine oocytes improves subsequent parthenogenetic development

To investigate the effects of water-soluble vitamin supplementation for IVM/IVC of porcine oocytes and evaluate maturation and developmental capacity in vitro, porcine cumulus oocyte complexes (COCs) was matured in NCSU-23-based medium with water-soluble vitamins for 44 h and then cultured in PZM-3 for 7 days following activation. The COCs were allocated into five treatment groups and matured in various concentrations of MEM vitamins (control, 0.05, 0.1, 0.2, 0.4, and 1x). Metaphase II plates of the cumulus-free oocytes were observed following Hoechest 33258 staining. The COCs were allocated into four treatment groups, matured in various concentrations of MEM vitamins (control, 0.05, 0.1, 0.2, and 0.4x) and cultured in PZM-3 following activation. Also, COCS were matured without MEM vitamins and cultured in PZM-3 with various concentrations (control, 0.1, 0.4, 1.0, and 2.0 x) of MEM vitamins. Furthermore, 2 x 2 factorial (IVM/IVC) experiments were performed in IVM medium with or without 0.05 x MEM vitamins and IVC medium with or without 0.4x MEM vitamins to examine the in vitro development of parthenogenetic embryos. Maturation rates of COCs treated with MEM vitamins did not differ significantly among groups. However, compared to the control group, oocytes matured with the addition of 0.05 x MEM vitamins developed to blastocysts at a higher percentage (P<0.05) following activation and culture in PZM-3 without MEM vitamins. Total cell number of blastocysts was significantly higher in the 0.05 x group. Addition of 0.4x MEM vitamins decreased (P<0.05) cleavage and blastocyst developmental rates compared with 0.05 x MEM vitamins-treated group. In contrast, addition of vitamins to PZM-3 medium for in vitro culture of activated porcine oocytes did not affect development. In conclusion, addition of a low concentration of MEM vitamins to IVM medium for porcine oocytes enhanced subsequent development and improved embryo quality.     

Enrichment of in vitro maturation medium for buffalo (Bubalus bubalis) oocytes with thiol compounds: effects of cystine on glutathione synthesis and embryo development

The purpose of this study was to evaluate whether enriching the oocyte in vitro maturation medium with cystine, in the presence of cysteamine, would improve the in vitro embryo production efficiency in buffalo by further increasing the GSH reservoir created by the oocyte during maturation. Cumulus-oocytes complexes were matured in vitro in TCM 199 + 10% FCS, 0.5 microg/ml FSH, 5 microg/ml LH and 1 microg/ml 17beta-estradiol in the absence or presence of cysteamine (50 microM), with or without 0.3mM cystine. In Experiment 1, glutathione content was measured by high-performance liquid chromatography and fluorimetric analysis in representative samples of oocytes matured in the four different experimental conditions. In Experiment 2, oocytes were fixed and stained to assess nuclear maturation and normal pronuclear development following IVM and IVF respectively. In Experiment 3, mature oocytes were in vitro fertilized and cultured to assess development to blastocysts. In all supplemented groups the intracytoplasmic GSH concentration was significantly higher than the control, with the highest GSH levels in oocytes matured in the presence of both thiol compounds (3.6, 4.7, 5.4 and 6.9 picomol/oocyte in the control, cysteamine, cystine and cystine+cysteamine groups, respectively; P < 0.05). Cystine supplementation of IVM medium, both in the presence or absence of cysteamine, significantly increased the proportion of oocytes showing two normal synchronous pronuclei following fertilization. In all supplemented groups, cleavage rate was significantly improved compared to the control (55, 66.1, 73.5 and 78.4% in the control, cysteamine, cystine and cystine+cysteamine groups, respectively; P < 0.05). Similarly, blastocyst yield was also increased in the three enriched groups compared to the control (17.1, 23.8, 29.3, 30.9% in the control, cysteamine, cystine and cystine+cysteamine groups, respectively; P < 0.05). Overall, the addition of cystine to a cysteamine-enriched medium resulted in a significant increase of cleavage rate and transferable embryo yield compared to the medium supplemented with only cysteamine.     

Glutathione synthesis during in vitro maturation of buffalo (Bubalus bubalis) oocytes: effects of cysteamine on embryo development

It was demonstrated that cysteamine supplementation during in vitro maturation (IVM) improves embryo development by increasing glutathione (GSH) synthesis in several species. An improved developmental competence of oocytes matured in the presence of cysteamine was also recorded in buffalo species. The purpose of this work was to investigate (1) if glutathione is de novo synthesized during in vitro maturation of buffalo oocytes, (2) if cysteamine improves buffalo embryo development via an increase in GSH synthesis, and (3) if the inhibition of glutathione synthesis by buthionine sulfoximide (BSO), in the presence or absence of cysteamine, affects subsequent embryo development and GSH synthesis.Cumulus-oocytes complexes (COCs), recovered from slaughtered animals, were matured in vitro in TCM199+10% fetal calf serum (FCS), 0.5 microg/ml FSH, 5 microg/ml LH and 1 microg/ml 17-beta-estradiol in the absence or presence of cysteamine (50 microM), with or without 5mM BSO. Glutathione content was measured by high-performance liquid chromatography (HPLC) and fluorimetric analysis in immature oocytes and in oocytes matured in the different experimental conditions.In a second experiment, the mature oocytes were in vitro fertilized and cultured for 7 days in order to assess development to blastocysts (BLs). It was demonstrated that buffalo oocytes synthesize glutathione during in vitro maturation and that cysteamine increases glutathione synthesis. Furthermore, the promoting effects of cysteamine on embryo development and GSH synthesis were neutralized by buthionine sulfoximide. These results indicate that glutathione plays a critical role on buffalo embryo development.     

Follicle size-dependent effects of sow follicular fluid on in vitro cumulus expansion, nuclear maturation and blastocyst formation of sow cumulus oocytes complexes

Follicular fluid from 2 to 4 and 5 to 8 mm diameter non-atretic follicles (SFF and LFF, respectively) of sows was added during IVM of cumulus oocytes complexes (COCs) to study its effects on cumulus expansion, nuclear maturation, and subsequent fertilization and embryo development in presence or absence of recombinant human FSH. COCs aspirated from 2 to 5 mm follicles of sow ovaries, were cultured for the first 22 h in TCM-199 and 100 microM cysteamine, with or without 10% pFF and/or 0.05 IU/ml recombinant hFSH. For the next 22 h, the COCs were cultured in the same medium, but without pFF and FSH. After culture, cumulus cells were removed and the oocytes were either fixed and stained to evaluate nuclear stages or co-incubated with fresh sperm. Twenty-four hours after fertilization, presumptive zygotes were fixed to examine fertilization or cultured for 6 days to allow blastocyst formation. Subsequently, embryos were evaluated and the blastocysts were fixed and stained to determine cell numbers. When LFF was added to maturation medium, cumulus expansion and percentage of nuclear maturation (277 +/- 61 microm and 72%, respectively) of COCs were significantly higher (P < 0.05) than those in SFF (238 +/- 33 microm and 55%, respectively). However, in the presence of FSH both FF stimulated cumulus expansion and nuclear maturation to a similar degree. No differences were observed with regards to sperm penetration, male pronucleus formation, and to polyspermia between fertilized oocytes matured either in SFF or LFF. Fertilized oocytes matured in the presence of LFF without or with FSH showed a higher cleavage (45 +/- 7% and 51 +/- 7%, respectively) and blastocyst (14 +/- 4% and 22 +/- 6%, respectively) formation rate compared to SFF (cleavage, 35 +/- 8% and 41 +/- 4%, blastocyst: 8 +/- 3 and 13 +/-3, respectively; P < 0.05). The mean number of cells per blastocyst did not differ significantly between treatments. These findings indicate that factor(s) within follicles at later stages of development play an important role during oocyte maturation and thereby enhance developmental competence to occur.     

Effects of caffeine treatment on aged porcine oocytes: parthenogenetic activation ability, chromosome condensation and development to the blastocyst stage after somatic cell nuclear transfer

The possibility of using aged porcine oocytes treated with caffeine, which inhibits the decrease in M-phase promoting factor activity, for pig cloning was evaluated. Cumulus-oocyte complexes (COCs) were cultured initially for 36 h and subsequently with or without 5 mM caffeine for 24 h (in total for 60 h: 60CA+ or 60CA- group, respectively). As a control group, COCs were cultured for 48 h without caffeine (48CA-). The pronuclear formation rates at 10 h after electrical stimulation in the 60CA+ and 60CA- groups decreased significantly (p < 0.05) compared with the 48CA- group. However, the fragmentation rate was significantly higher (p < 0.05) in the 60CA- group than in the 60CA+ and 48CA- groups. When the stimulated oocytes were cultured for 6 days, the 60CA+ group showed significantly lower blastocyst formation and higher fragmentation or degeneration rates (p < 0.05) than the 48CA- group. However, the number of total cells in blastocysts was not affected by maturation period or caffeine treatment. When somatic cell nuclei were injected into the non-enucleated oocytes and exposed to cytoplasm for a certain duration (1-11 h) before the completion of maturation (48 or 60 h), the rate of nuclear membrane breakdown after exposure to cytoplasm for 1-2 h in the 60CA- oocytes was significantly lower (p < 0.05) than in the other experimental groups. The rate of scattered chromosome formation in the same 60CA- group tended to be lower (p = 0.08) than in the other groups. After the enucleation and transfer of nuclei, blastocyst formation rates in the 60CA+ and 60CA- groups were significantly lower (p < 0.05) than in the 48CA- group. Blastocyst quality did not differ among all the groups. These results suggest that chromosome decondensation of the transplanted somatic nucleus is affected by both the duration of exposure to cytoplasm and the age of the recipient porcine oocytes, and that caffeine treatment promotes nuclear remodelling but does not prevent the decrease in the developmental ability of cloned embryos caused by oocyte aging.