Factors affecting recovery and quality of oocytes for bovine embryo production in vitro using ovum pick-up technology

In Experiment 1, different vacuum pressures (30, 50, 70 and 90 mm Hg) were used to aspirate 4156 bovine follicles in vitro, to assess their effect on flow rate and the recovery, morphology and blastocyst formation of the recovered oocytes. Cumulus oocyte complexes (COCs) were classified according to the morphology of the cumulus cells. Data were analyzed using Chi Square analysis. Overall recovery rate declined as the aspiration pressure increased above 50 mm Hg (P<0.05). The recovery rate of Grade 1 oocytes decreased significantly (P<0.05) as the vacuum pressure increased with a corresponding increase in the number of denuded oocytes recovered (P<0.05). The blastocyst yield, expressed as a percentage of recovered COCs decreased significantly as the aspiration pressure increased beyond 50 mm Hg (P<0.05). In Experiment 2, the holding media (hepes- or bicarbonate-buffered TCM 199) and holding time (1 h or 5 h) did not affect the blastocyst formation of the oocytes (P>0.05). In Experiment 3, it was found that individual culture of the oocyte during fertilization or culture had a detrimental effect on the oocytes blastocyst formation (8.8% to 16% blastocyst yield on Day 8) when compared to control (31.3%). In Experiment 4, groups of 5, 10 and 25 oocytes were compared with singly cultured oocytes. There were no significant differences (P<0.05) in the blastocyst formation rate among groups of 5, 10, or 25 oocytes, but there was a significant difference between oocytes processed in groups and those processed individually. In Experiment 5, when groups of 10 oocytes were cultured in different drop sizes, there was no significant difference in cleavage rates between oocytes cultured in 100 microL (85.0%, n = 280) and in 10 microL (86.8%, n = 280) of media, but culture in 50 microL (79.3%, n = 280) resulted in cleavage rates significantly lower (P<0.05) than culture in 10 microL drops. There was no significant difference in the blastocyst formation. However there was a significant difference (P<0.05) in cell numbers of Day 8 blastocvsts, with oocytes cultured in 100 microL drops having significantly lower cell counts than oocytes cultured in 50 or 10 microL drops.     

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.     

Low oxygen tension during in vitro maturation of porcine follicular oocytes improves parthenogenetic activation and subsequent development to the blastocyst stage

To establish a reliable in vitro maturation system for activation and subsequent development as nuclear recipients for the effective production of pig clones, we assessed maturation, activation and parthenogenetic development in response to the following: (1) type of immature oocytes (cumulus-oocyte complexes (COCs) or parietal granulosa plus cumulus-oocyte complexes (GCOCs)); (2) oxygen (O(2)) tension (5 or 20%); and (3) maturation period (36-60 h). The rate of nuclear maturation to metaphase-II (M-II) in the GCOC group (73.0 +/- 3.1%) was higher than that in the COC group (P < 0.05, 60.6 +/- 3.5%), but the rates did not differ between the 5 and 20% O(2) tension groups. M-II rate increased (P < 0.05) to about 70% after 42 h and then remained constant until 60 h of culture. When oocytes were matured under 5% O(2) tension and stimulated, the rate of normal oocyte activation (a female pronucleus formation and emission of the second polar body) was higher (P < 0.05, 38.5 +/- 3.9%) than when oocytes were matured under 20% O(2) tension (24.5 +/- 3.9%). On the other hand, the rate of normal activation was not significantly different between the COC and GCOC groups, and the highest (P < 0.05) normal activation rate was obtained in oocytes cultured for 48 and 54 h (48.4 +/- 5.5% and 47.9 +/- 8.2%, respectively). When COC and GCOC matured for 48 h under 5 and 20% O(2) tension were stimulated and subsequently cultured in vitro for 6 days, the rate of blastocyst formation did not differ between the oocyte types nor between the O(2) tension groups. However, blastocyst quality, as measured by mean total cell number, was significantly higher in the 5% O(2) group (P < 0.05, 34.6 +/- 2.0 for COC; 33.8 +/- 1.8 for GCOC) compared with the 20% O(2) group (25.9 +/- 1.8 for COC; 27.0 +/- 2.0 for GCOC). In conclusion, low O(2) tension (5%) during in vitro maturation of porcine oocytes promoted their ability to be activated normally and improved the quality of parthenogenetic blastocysts developed in vitro in modified NCSU-37 solutions. This knowledge may be applicable for preparation of in vitro matured oocytes with good quality as recipient oocytes for generating pig clones.     

Effect of human chorionic gonadotrophin supplementation during different culture periods on in vitro maturation of canine oocytes

The IVM of canine oocytes is characterized by low rates of metaphase II. The objective of this study was to evaluate the effects of hCG on meiotic development of canine oocytes for culture periods up to 96 h. Oocytes were collected after ovariohysterectomy. Only oocytes >110 microm in diameter, with a homogeneous dark cytoplasm and three or more layers of compact cumulus cells were used. For IVM, the COCs were cultured in TCM-199+10% fetal calf serum, without (medium A control) or supplement with 10 IU/mL of hCG (medium B), or with a combination of both media (treatment B/A). The COCs were randomly allocated into three groups. The first and second groups were cultured in either medium A or B, respectively for 24, 48, 72, and 96 h. Oocytes of the third group (treatment B/A) were incubated in medium with hCG (medium B) the first 48 h and then transferred to medium without hCG (medium A) for an additional 24 or 48 h. The proportion of COCs with cumulus cell expansion was also evaluated before fixation. Oocytes were stained with propidium iodide prior to nuclear assessment (with epifluorescence microscopy). COCs with cumulus expansion were evident after 48 h of culture. The proportion of COCs with cumulus expansion was higher (P<0.05) for media containing hCG (B or B/A) than for meda lacking hCG (A); this difference was maintained for 72 and 96 h in culture. In media A, B and B/A, 23.3, 31.7 and 29.5%, respectively, of oocytes were at metaphase II after 72 h, with 20.7, 33.1 and 43.4% at this stage after 96 h. The advancement of meiosis was directly proportional to the time of incubation; the highest percentage (P<0.05) of oocytes at metaphase II was observed after 96 h of culture when 10 IU/mL hCG was present for only the first 48 h of culture.     

Effects of different activation protocols on preimplantation development, apoptosis and ploidy of bovine parthenogenetic embryos

The objective of this study was to optimize the protocols for bovine oocytes activation through comparing the effectiveness of different treatments on the activation and subsequent development of oocytes and examining the effects of two combined activation treatments on the blastocyst apoptosis and ploidy. Cumulus-oocyte complexes (COCs) were recovered from abattoir-derived ovaries and matured in vitro. After maturation, cumulus-free oocytes were activated according to the experiment designs. Activated oocytes were cultured in vitro in modified synthetic oviductal fluid (mSOF) medium and assessed for pronuclear formation (15-16 h), cleavage (46-48 h) and development to the blastocyst stage. In Experiment 1, the matured oocytes were treated with single activation agents, including ionomycin (5 microM for 5 min), ethanol (7% for 7 min), calcium ionophore A23187 (5 microM for 5 min) or strontium (10mM for 5h). The pronuclear formation and cleavage rate were higher significantly in ionomycin (39.0 and 30.7%) and ethanol (41.5 and 28.1%) treatment alone compared to other treatments (9.7-25.2 and 11.3-23.7%, respectively, P<0.05). Very low blastocyst rates (3.9-5.3%) resulted which were not significantly different among treatments (P>0.05). For the combined activation treatment (Experiment 2), the same concentrations of ionomycin and ethanol as in Experiment 1 were used in combination with either 6-dimethylaminopurine (6-DMAP, 2.0 mM for 3 h) or cycloheximide (CHX)+cytochalasin B (CB, 10 microg/ml for 3 h). The pronuclear formation, cleavage rate, blastocyst rate and cell number of blastocyst were higher significantly (P<0.05) in ionomycin+6-DMAP treatment (67.1, 69.2, 28.0 and 91.3%, respectively) and ethanol+CHX+CB treatment (68.9, 70.2, 25.5 and 89.3%, respectively) compared to other treatments (11.7-58.1, 10.2-47.1, 1.5-24.2 and 34.2-62.7%, respectively). In Experiment 3, the parthenogenetic blastocysts produced by activation with ionomycin+6-DAMP and ethanol+CHX+CB and in vitro fertilized blastocysts (control group) were examined for apoptosis using a terminal deoxynucleotidyl transferase mediated deoxyuridine 5-triphosphate nick-end labeling (TUNEL) assay. The ethanol+CHX+CB treatment (7.0%) showed significantly lower blastocyst apoptosis index compared to ionomycin+6-DAMP treatment (9.1%, P<0.05). Furthermore, the chromosomal composition in the parthenotes embryos differed (P<0.05) among treatments. The percentage of haploid parthenotes was higher in ionomycin+6-DMAP treatment than ethanol+CHX+CB treatment. These results suggested that ethanol+CHX+CB treatment was more favorable protocol for parthenogenesis of bovine oocytes.     

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.     

Bovine blastocyst development rate in vitro is influenced by selection of oocytes by brillant cresyl blue staining before IVM as indicator for glucose-6-phosphate dehydrogenase activity

The aim of this present study was to increase the efficiency of blastocyst production from cows after in vitro maturation/fertilization (IVM/IVF) by oocyte selection before maturation. Oocytes were selected on the basis of brillant cresyl blue (BCB) staining, used to indicate glucose-6-phosphate dehydrogenase (G6PDH) activity. To re-valuate the hypothesis that growing oocytes are expected to have a high level of active G6PDH, while mature oocytes have low G6PDH activity, cumulus oocyte complexes (COCs) were recovered from slaughterhouse ovaries by slicing the surface of the ovary. Only oocytes with a compact cumulus investment were used. Oocytes were placed into three groups: (1) control--placed immediately into culture; (2) holding control--COCs kept in PBS containing 0.4% BSA for 90 min before placement into culture; and (3) treatment--incubation with BCB for 90 min before culture. Treated oocytes were then divided into BCB- (colorless cytoplasm, increased G6PDH) and BCB+ (colored cytoplasm, low G6PDH) on their ability to metabolize the stain. Activity of G6PDH was determined via measurement of NADP reduction induced by G6P as substrate oxidized by G6PDH in the cytosol of control, BCB- and BCB+ groups; G6PDH activity was significant higher in BCB- COCs than in control and BCB+ COCs. After IVM, oocytes were fertilized in vitro. Embryos were cultured to day 8. The rate of maturation to metaphase II was significantly higher for control and BCB+ oocytes than for BCB- oocytes. The BCB+ oocytes yielded a significantly higher proportion of blastocysts (34.1%) than did control or holding control oocytes (18.3 and 19.2%); and both controls and BCB+ oocytes had significantly higher blastocyst development than did BCB- oocytes (3.9%). These results show that the staining of bovine cumulus oocyte complexes with BCB before in vitro maturation may be used to select developmentally competent oocytes for IVF. In addition, G6PDH activity may be useful as a marker for oocyte quality in future studies on factors affecting developmental competence.     

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.     

Chemical activation of in vitro matured dromedary camel (Camelus dromedarius) oocytes: optimization of protocols

Experiments were conducted to study the efficiency of sequential treatments of ionomycine and ethanol combined with phosphorylation inhibitor (6-dimethylaminopurine) or the specific maturation promoting factor inhibitor (roscovitine) in inducing artificial activation in dromedary M-II oocytes. Cumulus oocyte complexes (COCs), collected from slaughterhouse ovaries were cultured at 38.5 degrees C in an atmosphere of 5% CO2 in air for 24-48 h. In experiment 1, the COCs were either fertilized in vitro or activated with 5 microM ionomycine for 5 min or 7% ethanol for 7 min, both followed by exposure to 6-diethylaminopurine or roscovitine for 4h. After 14-15 h of in vitro culture, the oocytes were fixed and stained with 1% aceto-orcein to evaluate their nuclear status. In experiment 2, the oocytes were activated in the same manner as in experiment 1 but were cultured for 7 days to evaluate their post-parthenogenetic development. In experiment 3, oocytes were exposed to the ionomycine for 2, 3, 4 or 5 min to evaluate the better exposure time while as in experiment 4, the oocytes matured for 28-48 h were activated to see the effect of aging on post-parthenogenetic development. Higher proportion (P<0.01) of oocytes was activated in ionomycine/6-DMAP and ionomycine/roscovitine groups when compared with ethanol/6-DMAP, ethanol/roscovitine and in vitro fertilized groups. However, there was no difference (P>0.05) in the proportion of oocytes activated with ethanol when compared with in vitro fertilized group. No significant difference was seen on the proportion of morula on day 7 of culture, however the development to blastocyst stage was higher (P<0.01) in ionomycine/6-DMAP and ionomycine/roscovitine when compared with ethanol/6-DMAP and ethanol/roscovitine treated oocytes. A higher proportion of oocytes reached blastocyst stage when they were exposed to ionomycine for 3 min but they were not significantly different from the others (P>0.05). The proportion of blastocysts obtained was higher (P<0.05) in oocytes activated after 28 h of maturation when compared with oocytes activated after 32, 36, 40, 44 and 48 h of maturation. In conclusion, a protocol for chemical activation of dromedary camel oocytes with ionomycine/6-DMAP is demonstrated and optimized in the present study for further use in the development of assisted reproductive techniques in this species.     

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.     

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.     

Effect of the addition of insulin-transferrin-selenium and/or L-ascorbic acid to the in vitro maturation of prepubertal bovine oocytes on cytoplasmic maturation and embryo development

This study examines the effects of adding insulin-transferrin-selenium (ITS) and/or L-ascorbic acid (ASC) to a conventional medium for maturing prepubertal calf oocytes on chromosome organization, cortical granule (CG) distribution, and embryo development to the blastocyst stage. Cumulus-oocyte complexes (COCs) were matured in medium TCM 199 containing PVA and EGF (control), and supplemented with ITS and/or ASC for 12 or 24 h at 38.5 °C in a 5% CO₂ atmosphere. Calf oocytes matured with ITS + ASC or ASC for 12 h showed significantly higher percentages of peripherally distributed CG (83.3% and 86.2% respectively) than control oocytes (71.4%) or those matured with ITS alone (71.4%). No effects on chromosome organization were detected. Conversely, 24 h of supplementation did not affect CG distribution patterns, while the addition of ASC gave rise to significantly higher percentages of oocytes showing a normal alignment of their chromosomes (72.9%) compared to controls (58.7%). At 48 hpi, similar cleavage rates were observed among treatments regardless of the treatment time. However, the presence of ITS + ASC for 12 h rendered significantly higher blastocyst rates than those recorded in the remaining groups. Supplementation for 24 h with ITS or ITS + ASC had no significant effects on the percentage of blastocysts obtained, while the presence of ASC significantly reduced the proportions of embryos developing to the blastocyst stage. Our data suggest that ITS plus L-ascorbic acid supplementation during the first 12 h of in vitro maturation improves cytoplasm maturation and the developmental competence of embryos produced from prepubertal calf oocytes.     

Cumulus cells suppress meiotic progression in pig oocytes cultured in vitro

The objective of this study was to examine the effect of cumulus cell removal from cumulusoocyte complexes (COCs) on meiotic progression. In Experiments 1, 2 and 3, pig COCs were cultured for 16, 20 and 24 h, respectively. The cumulus cells were then removed, and the denuded oocytes were incubated in fresh medium for another 32 h in Experiment 1, for 28 h in Experiment 2 and for 24 h in Experiment 3. In Experiment 4, the denuded oocytes and COCs were co-cultured in a drop of fresh medium from 24 h of cultivation to the end of the culture period (48 h). Removal of the cumulus cells after 16 h of cultivation had no effect on the proportions of oocytes both undergoing germinal vesicle breakdown (GVBD) and reaching MII. When the denuded oocytes were further cultured for 24 h, following the removal of their cumulus cells after 24 h of cultivation, the proportion of oocytes undergoing GVBD was significantly higher (90%, P < 0.05) than that of oocytes that were continuously cultured for 48 h without removing the cumulus cells (80%). Removal of the cumulus cells after 20 and 24 h of incubation produced a significant increase in the proportion of oocytes reaching the MII stage (84%, P < 0.05 and 76%, P < 0.01, respectively) as compared with COCs cultured continuously for 48 h without removing cumulus cells (71% and 55%, respectively). The maturation rate of denuded oocytes co-cultured with COCs for the second 24 h of cultivation was comparable to that of denuded oocytes cultured without COCs (77 and 74%, respectively). From these results, it was concluded that cumulus cells surrounding oocytes suppressed meiosis of both the GVBD process and progression from GVBD to MII in pig oocytes cultured in vitro, and that the suppressive factor in meiotic progression produced by the cumulus cells might be transferred to the oocytes through gap junctions rather than through the medium.     

Influence of cumulus cells and sperm concentration on cleavage rate and subsequent embryonic development of buffalo (Bubalus bubalis) oocytes matured and fertilized in vitro

The objective of the present study was to investigate the effects of sperm concentration and presence or absence of cumulus cells on fertilization, cleavage rate and subsequent embryonic development upto the blastocyst stage in buffalo. Cumulus-oocyte-complexes (COCs) obtained from slaughterhouse ovaries were matured in vitro in TCM-199 + 10% FBS + 5 micrograms/mL FSH-P for 24 h. After maturation the COCs were either used as such (cumulus-intact) or freed from attached cumulus cells by repeated pipetting (cumulus-free). Frozen-thawed buffalo spermatozoa were treated with 10 micrograms/mL heparin and 2.5 mM caffeine for sperm capacitation. Oocytes were fertilized in vitro with 1 to 2, 4 to 5 or 9 to 10 million sperm/mL and the cleavage rate was recorded 42 to 44 h post insemination. The cleaved embryos were co-cultured with buffalo oviductal epithelial cells for 10 d post insemination, and the uncleaved oocytes were fixed and stained with aceto-orcein for determination of the penetration rate. The cleavage rate and the proportion of cleaved embryos that developed to morula and blastocyst stages were significantly higher (P < 0.05) whereas the proportion of degenerated oocytes and those that became arrested at the 2 to 16-cell stage were significantly lower (P < 0.05) with cumulus-intact than with cumulus-free oocytes at the 3 sperm concentrations. Increasing the sperm concentration increased the cleavage rate significantly (P < 0.05) from 1 to 2 million through 9 to 10 million sperm/mL but had no effect on the proportion of cleaved embryos that developed to morula and blastocyst stages. In conclusion, the results of the present study suggest that cumulus cells have a positive influence on fertilization, cleavage and subsequent embryonic development. Increase in sperm concentration increases cleavage rate without affecting subsequent embryonic development.     

Viability of ICSI oocytes after caffeine treatment and sperm membrane removal with Triton X-100 in pigs

Non-adequate decondensation of injected sperm nucleus is one the main problems of intracytoplasmic sperm injection (ICSI) in porcine. With the aim of improving pronuclear formation, the effects on activation and embryo development rates of 0.1% Triton X-100 (TX) sperm pre-treatment for membrane removal and/or 5 mM Caffeine (CAF) addition in oocyte manipulating and culture medium for 2 h after ICSI or artificial activation were studied. The effects of 4 different Ca²⁺ concentrations contained in the injection medium on embryo development after sham injection were also analysed. In Experiment 1, no significant effect on cleavage or blastocyst rate was detected independently of Ca²⁺ concentration contained in the injection medium. In Experiment 2, oocytes injected with TX pre-treated sperm showed a significant higher rate of male pronuclear formation in comparison with oocytes from control group (2PN; 54.1 vs 36.6%). However, no differences on in vitro embryo development, cleavage or blastocyst rates were observed. In Experiment 3, oocytes treated with CAF during and after micromanipulation and injected with sperm pre-treated with TX had a significantly lower oocyte activation rate than any other experimental groups (25.7 vs 56.3-66.3%). No differences were observed in cleavage rates among different experimental groups. However, the CAF group showed a higher blastocyst rate significantly different from TX+CAF group (12.0 vs 1.9%, respectively). In a second approach, the effect of electric field strengths and CAF treatments on oocyte activation was studied. In Experiment 4, oocytes submitted to 0.6 kV/cm showed significant higher activation rates than 1.2 kV/cm ones regardless of the caffeine treatment (83.7 vs 55.9% and 75.7 vs 44.3%; in control and caffeine groups, respectively). No effect of caffeine treatment was observed in any experimental group. In conclusion, TX sperm treatment before ICSI without an additional activation procedure improved male pronuclear formation, but did not improve embryo development until blastocyst stage. No significant effect of caffeine was found when sperm was not treated with TX, although in membrane absence caffeine avoided oocyte activation and embryo development. Finally, caffeine had no effect on female pronuclear formation regardless of electric field strengths applied to the parthenogenetic activation.     

Viability of ICSI oocytes after caffeine treatment and sperm membrane removal with Triton X-100 in pigs

Non-adequate decondensation of injected sperm nucleus is one the main problems of intracytoplasmic sperm injection (ICSI) in porcine. With the aim of improving pronuclear formation, the effects on activation and embryo development rates of 0.1% Triton X-100 (TX) sperm pre-treatment for membrane removal and/or 5 mM Caffeine (CAF) addition in oocyte manipulating and culture medium for 2 h after ICSI or artificial activation were studied. The effects of 4 different Ca²⁺ concentrations contained in the injection medium on embryo development after sham injection were also analysed. In Experiment 1, no significant effect on cleavage or blastocyst rate was detected independently of Ca²⁺ concentration contained in the injection medium. In Experiment 2, oocytes injected with TX pre-treated sperm showed a significant higher rate of male pronuclear formation in comparison with oocytes from control group (2PN; 54.1 vs 36.6%). However, no differences on in vitro embryo development, cleavage or blastocyst rates were observed. In Experiment 3, oocytes treated with CAF during and after micromanipulation and injected with sperm pre-treated with TX had a significantly lower oocyte activation rate than any other experimental groups (25.7 vs 56.3–66.3%). No differences were observed in cleavage rates among different experimental groups. However, the CAF group showed a higher blastocyst rate significantly different from TX+CAF group (12.0 vs 1.9%, respectively). In a second approach, the effect of electric field strengths and CAF treatments on oocyte activation was studied. In Experiment 4, oocytes submitted to 0.6 kV/cm showed significant higher activation rates than 1.2 kV/cm ones regardless of the caffeine treatment (83.7 vs 55.9% and 75.7 vs 44.3%; in control and caffeine groups, respectively). No effect of caffeine treatment was observed in any experimental group. In conclusion, TX sperm treatment before ICSI without an additional activation procedure improved male pronuclear formation, but did not improve embryo development until blastocyst stage. No significant effect of caffeine was found when sperm was not treated with TX, although in membrane absence caffeine avoided oocyte activation and embryo development. Finally, caffeine had no effect on female pronuclear formation regardless of electric field strengths applied to the parthenogenetic activation.     

Effect of angiotensin II with follicle cells and insulin-like growth factor-I or insulin on bovine oocyte maturation and embryo development

The objective was to evaluate the effects of angiotensin II (Ang II), insulin-like growth factor-I (IGF-I) and insulin on the nuclear and cytoplasmic maturation of bovine oocytes in the presence of follicular cells. Cumulus-oocyte complexes (COCs) were cultured for 22h in the presence of follicular cells (control with cells) and Ang II, IGF-I or insulin (treatments), or in the absence of follicular cells (control without cells). Using these five groups, Experiment 1 was conducted with and without the addition of gonadotrophins. Only oocytes in the Ang II group resumed meiosis at rates (88.2+/-1.8% and 90.7+/-4.3% for oocytes cultured in the absence or presence of LH/FSH, respectively) similar to those observed for oocytes cultured in the absence of follicular cells (89.7+/-0.3% and 92.6+/-2.6%; P<0.01). In Experiment 2, the effect of Ang II alone and in combination with IGF-I or insulin on oocyte maturation for 7h (germinal vesicle breakdown), 12h (metaphase I) and 22h (metaphase II) was evaluated in a design similar to that of the first experiment. Ang II plus IGF-I or insulin induced the resumption of meiosis, irrespective of the presence of gonadotrophins (P<0.01). Experiment 3 used groups similar Experiment 2 to determine the rate of subsequent embryo development, using fetal calf serum (FCS) in the culture medium. The COCs were cultured in maturation medium for 1h (1+23h), 12h (12+12h) or 24h in the presence of follicular cells and the respective treatments and for the remaining period in the absence of follicular cells to complete 24h. In Experiment 4, BSA was used in lieu of serum in the maturation medium in a 12+12h maturation system. Oocytes matured using the 12+12h system with BSA or FCS in the presence of Ang II+IGF-I had higher rates of blastocyst formation than the other treatments (P<0.05). In conclusion, Ang II reversed the inhibitory effect of follicular cells on nuclear maturation of bovine oocytes, irrespective of the presence of gonadotrophins, IGF-I and insulin. However, oocyte cytoplasmatic maturation (i.e., subsequent embryo development), was higher when Ang II and IGF-I were present in the maturation medium containing follicular cells cultured for 12+12h.     

Selection of developmentally competent oocytes through brilliant cresyl blue stain enhances blastocyst development rate after bovine nuclear transfer

The aim of the present investigation was to study the effect of oocyte selection on the efficiency of bovine nuclear transfer in terms of increased blastocyst production. For this purpose, prior to in vitro maturation (IVM), oocytes were selected for their developmental competence on the basis of glucose-6-phosphate dehydrogenase (G6PDH) activity indicated by brilliant cresyl blue (BCB) staining. It has been hypothesized that growing oocytes have a higher level of active G6PDH in comparison to the mature oocytes. Compact cumulus oocyte complexes (COCs) were recovered from slaughterhouse-collected bovine ovaries and classified either as control group, which were placed immediately into culture without exposure to BCB stain, or treatment group, which were stained with BCB for 90min before culture. Treated oocytes were then divided into BCB- (colourless cytoplasm, increased G6PDH) and BCB+ (coloured cytoplasm, low G6PDH) based on their ability to metabolize the stain. After IVM, oocytes were subjected to nuclear transfer procedure for the production of cloned embryos which were then cultured for a period of 8 days to determine the blastocyst rate. The BCB+ oocytes yielded a significantly higher blastocyst rate (39%) than the control (21%) or BCB- oocytes (4%). These results show that the staining of bovine cumulus-oocyte complexes with BCB before in vitro maturation could be used to select developmentally competent oocytes for nuclear transfer. In addition, G6PDH activity could prove to be a useful marker for determining the oocyte quality in future.     

In vitro fertilization of ovine oocytes vitrified by solid surface vitrification at germinal vesicle stage

Cryopreservation of immature oocytes at germinal vesicle (GV) stage would provide a readily available source of oocytes for use in research and allow experiments to be performed irrespective of seasonality or other constraints. This study was designed to evaluate the recovery, viability, maturation status, fertilization events and subsequent development of ovine oocytes vitrified at GV stage using solid surface vitrification (SSV). Cumulus oocyte complexes (COCs) obtained from mature ewes were randomly divided into three groups (1) SSV (oocytes were vitrified using SSV), (2) EXP (oocytes were exposed to vitrification and warming solutions without vitrification) or (3) Untreated (control). Following vitrification and warming, viable oocytes were matured in vitro for 24h. After that, nuclear maturation was evaluated using orcein staining. Matured oocytes were fertilized and cultured in vitro for 7days. Following SSV, 75.7% 143/189 oocytes were recovered. Of those oocytes recovered 74.8%, 107/143 were morphologically normal (viable). Frequencies of in vitro maturation were significantly (P<0.01) decreased in SSV and EXP groups as compared to control. In vitro fertilization rates were significantly (P<0.01) decreased in SSV (39.3%) group as compared to EXP (56.4%) and control (64.7%) groups. Cleavage at 48h post insemination (pi) and development to the blastocyst stage on day 7 pi were significantly (P<0.001) decreased in SSV oocytes as compared to EXP and control groups. In conclusion, immature ovine oocytes vitrified using SSV as a simple and rapid procedure can survive and subsequently be matured, fertilized and cultured in vitro up to the blastocyst stage, although the frequency of development is low.     

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

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