Activation regimens to prepare bovine oocytes for intracytoplasmic sperm injection

Activation of bovine oocytes to produce a single haploid pronucleus in preparation for intracytoplasmic sperm injection (ICSI) has been investigated with various combinations of ionomycin and 6-dimethylaminopurine (DMAP). Effects were evaluated by immunocytochemical staining, chromosomal analysis and assessment of development in vitro. Oocytes matured in vitro were exposed to: ionomycin alone (single or repeated treatments, Groups 1 and 2 respectively), ionomycin followed by DMAP (immediately or after a 3-h delay, Groups 3 and 4), or no treatment (control, Group 5). They were then co-cultured in M199 with bovine oviductal epithelial cells. Activation rates were not significantly different among groups but significantly fewer oocytes in Group 3 extruded a second polar body than in Groups 1, 2, and 4. Most parthenotes (60% to 80%) in Groups 1, 2, and 4 were haploid, whereas 82% in Group 3 were mixoploid or polyploid. Most of the parthenotes (88%) in Group 4 formed a single pronucleus besides extruding the second polar body and were therefore more suitable for ICSI than those of Groups 1 and 2 in which condensed chromosomes predominated. The respective rates of oocyte cleavage in Groups 1 to 4 were 24%, 36%, 70%, and 75%; corresponding blastocyst rates were 1%, 5%, 17%, and 8%. There were significantly fewer cells in the parthenotes of Groups 1, 2, and 4 than of Group 3, or of embryos produced by in vitro fertilization. Thus, delaying the addition of DMAP after ionomycin decreases chromosomal abnormalities and produces a high proportion of activated oocytes suitable for ICSI. Mol. Reprod. Dev. 50:485–492, 1998. © 1998 Wiley-Liss, Inc.     

In vitro development of bovine oocytes reconstructed with round spermatids

The timing between round spermatid(s) (RS) injection and oocyte activation are critical for spermatid remodeling and embryo development in intracytoplasmic injection of round spermatid (ROSI) procedure. The objective of the present study was to develop an appropriate oocyte activation method for producing developmentally competent bovine embryos reconstructed with RS. Embryos reconstructed by ROSI were compared with three activation treatments for the rates of pronuclear formation, development and ploidy. RS were isolated from bull testes by Percoll density gradients. Matured oocytes were divided into three activation groups. In Group 1, oocytes were activated with ionomycin (5 microM, 5 min) before ROSI. In Group 2, oocytes were activated with ionomycin after ROSI. In Group 3, oocytes were activated twice with ionomycin before and after ROSI. All the eggs were then incubated in cycloheximide (CHX, 10 microg/mL) for 5 h and cultured in CR1aa medium for up to 8 days. Three methods of oocyte activation were also compared for the activation and development of parthenotes. Activation rates among the groups were 70-79% and did not differ. Cleavage rates in parthenotes were significantly (P < 0.05) higher in Group 3 than in Groups 1 and 2, but blastocyst rates did not differ among the groups. In ROSI embryos, the rates of cleavage and development into blastocysts were significantly (P < 0.05) greater in Group 3 (82.3% and 13.1%) than in Groups 1 and 2 (53.7, 5.8% and 64.2, 1.7%, respectively). Ploidy analysis by examining the metaphase spreads of ROSI blastocysts displayed greater numbers of diploid chromosomal complements. These results suggest that intracytoplasmic RS injection combined with repeated ionomycin activation followed by CHX treatment is more efficient for producing developmentally competent embryos.     

Development of cloned pig embryos by nuclear transfer following different activation treatments

This study compared the effects of activation treatments on the development and ploidy of nuclear transferred (NT) pig embryos. After in vitro maturation of oocytes collected from the slaughterhouse, oocytes were enucleated and reconstructed by transfer of donor cells and fusion with three DC pulses (1.4 kV/cm, 20 musec). Oocytes were pulsed thrice electrically with 1.4 kV/cm for 20 musec and NT eggs were divided into three treatment groups: Group 1 (no further treatment), Group 2 (10 mug/mL cycloheximide [CHX], 3 hr), and Group 3 (1.9 mM 6-dimethylaminopurine [DMAP], 3 hr). All the eggs were cultured in sets of 30 in 60 muL drops of NCSU-23 supplemented with 4 mg/mL fatty acid free BSA, and compared for the rates of development and ploidy. The rates of cleavage, development, and total cell number of parthenotes in Group 3 were significantly (P < 0.05) higher than those in Groups 1 and 2. Cleavage rates of NT embryos in Group 1 were significantly (P < 0.05) lower than those in Groups 2 and 3 (73% vs. 81% and 82%, respectively). Development into blastocyst stage and total cell number of NT embryos in Group 3 were significantly (P < 0.05) higher than those in Groups 1 and 2. Although the embryos in Group 3 had higher development, approximately 58% of NT embryos evaluated were abnormal ploidy (6% haploidy, 9% polyploidy, and 42% mixoploid). The results suggested that although DMAP enhanced development and higher cell number, due attention should be paid to abnormal ploidy in pig NT embryos.     

Heat shock of porcine zygotes immediately after oocyte activation increases viability

We evaluated the effect of different timing variations of an applied heat shock on parthenogenetically activated (PA) porcine embryos. PA embryos were heat shocked for 9 hr at 42 degrees C from either 0-9 hr post activation (hpa; 09HS), 13-22 hpa (1322HS), or 22-31 hpa (2231HS). Analysis of 24-hr cleavage rates (P < 0.0001), day 5 cell numbers (P < 0.005), day 7 blastocyst rates (P < 0.0001), and day 7 cell numbers (P < 0.05) showed that 09HS embryos developed more successfully in vitro than did all other treated and control embryos. In vitro fertilized (IVF) embryos were exposed to similar heat treatments as described for PA embryos, and embryos derived from somatic cell nuclear transfer (SCNT) were exposed only to the control and 09HS treatments to assess the effects of the different heat treatments on the timing of first cleavage and development to blastocyst. Embryos derived from both IVF and SCNT showed higher proportions of cleaved embryos on day 1 of development when heat shocked immediately after fertilization or fusion/activation as compared to NHS controls (P < 0.05). Blastocyst rates however, showed only modest (IVF; P = 0.089) or no (SCNT; P > 0.1) improvement as compared with control embryos. In summary, exposing PA embryos to elevated temperatures immediately after oocyte activation results in dramatically enhanced developmental potential. A thorough characterization of this phenomenon may yield findings that can serve to increase the efficiency with which PA, IVF, and SCNT embryos are produced in vitro.     

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.     

In vitro production of llama (Lama glama) embryos by intracytoplasmic sperm injection: effect of chemical activation treatments and culture conditions

Assisted reproductive technologies in the llama (Lama glama) are needed to provide alternative methods for the propagation, selection and genetic improvement; however, recovery of adequate quantity and quality of spermatozoa for conventional IVF is problematic. Therefore, an effort was made to adapt the intracytoplasmic sperm injection (ICSI) procedure for the in vitro production of llama embryos. The specific objectives of this study were: (1) to determine in vitro maturation rates of oocytes recovered by transvaginal ultrasound-guided oocyte aspiration (TUGA) or flank laparotomy; (2) to evaluate the effects of activation treatments following ICSI; (3) to evaluate the development of llama ICSI embryos in CR1aa medium or in an oviduct cell co-culture system. Llamas were superstimulated by double dominant follicle reduction followed by oFSH administered in daily descending doses over a 3-day interval. Oocytes were harvested by flank laparotomy or TUGA and matured in vitro for 30 h. Mature oocytes were subjected to ICSI followed by no chemical activation (Treatment A), ionomycin only (Treatment B) or ionomycin/DMAP activation (Treatment C). More oocytes were recovered by flank laparotomy procedure compared with TUGA (94% versus 61%, P<0.05) and a greater number of oocytes harvested by flank laparotomy reached the metaphase-II stage (77% versus 44%, P<0.05). After ICSI, the proportion of cleaved and 4-8-cell stages embryos was significantly greater when injected oocytes were activated with ionomycin/DMAP combination (63% and 38%, respectively, P<0.05). The co-culture of ICSI embryos with llama oviduct epithelial cells resulted in progression to morula (25%) and blastocyst (12%) stages; whereas, all embryos cultured in CR1aa medium arrested at the 8-16-cell developmental stage.     

Development of goat embryos after in vitro fertilization and parthenogenetic activation by different methods.

Effective activation protocols that can be used during nuclear transfer investigations in goats need to be developed. We compared the development of IVF goat embryos with those of nonfertilized parthogenetically developing oocytes activated by treatment with either ionomycin or ethanol, both followed by immediate exposure to 6-diethylaminopurine (6-DMAP). Cumulus oocyte complexes (COCs) recovered from abattoir goat ovaries were either matured in a conventional laboratory incubator or placed in pre-equilibrated maturation medium and shipped overnight in a battery-operated dry incubator to another laboratory. Mature COCs were allocated randomly to one of three treatment groups. Group 1 oocytes (n=169 shipped, n=253 not shipped) were fertilized in vitro at 24 h postmaturation (hpm). The remaining COCs were activated at 28 hpm in either ionomycin (Group 2: n=362 shipped, n=202 not shipped), or ethanol (Group 3: n=263 shipped, n=249 not shipped). Activated oocytes were immediately incubated in 6-DMAP for 4 h. Blastocyst development was evaluated on Day 8 post-insemination/activation. Percent cleavage was comparable in shipped and nonshipped oocytes and in all treatment groups. In both shipped and nonshipped oocytes, parthenotes developing from ionomycin- and ethanol-activated oocytes had significantly greater blastocyst development (P<0.01) compared to IVF embryos (28.5 +/- 3.0, 27.4 +/- 2.8, 10.3 +/- 3.0, respectively for the nonshipped oocytes and 9.9 +/- 2.1, 10.3 +/- 2.4, 3.7 +/- 4.7 respectively for the shipped oocytes). Shipped oocytes had lower blastocyst development compared to nonshipped oocytes in the three treatment groups. The mean blastocyst cell number was not statistically different between shipped and nonshipped oocytes or among treatment groups, suggesting that all were equally viable.     

In vitro and in vivo developmental competence of dromedary (Camelus dromedarius) oocytes following in vitro fertilization or parthenogenetic activation

Parthenogenetic activation of the oocyte represents an important step in the somatic cloning. The aim of the present study was to evaluate the effectiveness (in term of in vitro development) of different methods of parthenogenetic activation of dromedary oocytes. Selected cumulus-oocytes-complexes (n=1264) collected by follicular aspiration from ovaries obtained postmortem were matured in vitro (IVM) for 30 h then divided randomly into seven groups and submitted to artificial activation. Two groups were preactivated with 25 microM of calcium ionophore (CaI) for 20 min then incubated for 4h with either 2mM 6-dimethylaminopurine (6-DMAP) (group 1, n=202) or with 10 microg/mL cycloheximide (CHX) (group 2, n=194). Group 3 (n=172) and group 4 (n=184), oocytes were pretreated with 5 microM ionomycin (Iono) for 5 min then incubated with either 2mM 6-DMAP or 10 microg/mL cycloheximide for 4h, respectively. Group 5 (n=161) and group 6 (n=155) oocytes were preactivated with electrical stimulation (ES) then activated with either 2mM 6-DMAP or 10 microg/mL cycloheximide for 4h, respectively. Group 7 (n=196) oocytes were submitted to in vitro fertilization (IVF) and served as a control. All groups containing oocytes were cultured in vitro following activation or IVF, at 38.5 degrees C under 5% CO(2) in air with >95% humidity. The in vitro development rates of dromedary oocytes exposed to 6-DMAP after CaI (61%), ES (74%) and the IVF group (71%) were similar and significantly greater (P<0.05) than other treatments (10% for group 2, 47% for group 3, 27% for group 4 and 41% for group 6). The blastocyst developmental rate was better (P<0.05) in parthenotes following activation with Iono/6-DMAP (21%) compared to activation with Iono/CHX (12%). However, all were less than that achieved in the IVF group (35%). We conclude that parthenogenetic activation of camel oocytes with 6-DMAP is more effective than activation with CHX for all pre-treatments tested (CaI, Iono or ES). The viability of activated (n=15) or IVF (n=10) hatched-dromedary embryos was examined by transfer to synchronized recipients. An embryonic vesicle was seen by ultrasonography at 15 days post transfer in four females (CaI/6-DMAP: 1/5; 20%, IVF: 3/10; 30%). The only pseudopregnancy obtained with an activated embryo resorbed at 25 days. One of the females receiving the IVF produced embryos aborted at 2 months and the other two females carried to term and gave birth to healthy calves (one female and one male). This study shows that artificial activation of dromedary oocytes with CaI/6-DMAP or ES/6-DMAP is more effective than other treatments in terms of in vitro embryo development. This provides efficient activation conditions which may lead to the development of the somatic cell nuclear transfer procedure in dromedary.     

A comparative study of parthenogenic activation and in vitro fertilization of bubaline oocytes

The effect of chemical activation protocols on in vitro-matured oocytes were compared to results with IVF (natural activation). Buffalo ovaries were collected in normal saline and transported to the laboratory within 2 h of slaughter. Good quality oocytes, collected by aspiration from 3 to 10 mm follicles, were matured for 22-24 h. Matured oocytes were subjected to either IVF (control) or chemical activation (treatment). For IVF, in vitro-matured oocytes were co-incubated with in vitro-capacitated approximately 1x10(6) frozen/thawed sperm of a Murrah bull and fertilized in modified synthetic oviductal fluid (mSOF) medium. Chemicals for oocytes activation comprised (a) 7% ethanol (ET) for 7 min+2.5 mM 6-dimethyl amino purine (6-DMAP) for 4h, (b) 7% ET for 7 min+10 microg/ml cycloheximide (CHX) for 6h and (c) 7% ET for 7 min+2.5 mM 6-DMAP+10 microg/ml CHX for 6 h. To study embryo development, fertilized and chemically activated oocytes were cultured in mSOF medium for up to 8 days. In this study, a mean of 1.9+/-0.02 maturable oocytes/ovary were recovered and 90.4% matured. Cleavage rate was significantly higher following ET+DMAP, ET+CHX and ET+CHX+DMAP activation (52.5%, 52.5% and 44.4%, respectively) compared to IVF (36.5%, 23.4% and 26.8%, respectively). Blastocyst development (30.9% versus 15.2%) was also significantly higher following ET+CHX+DMAP activation than IVF. The results of parthenogenesis reveal that buffalo oocytes had better inherent developmental competence and that the poor cleavage and embryo development following IVF may be due partly to the poor quality of frozen/thawed sperm, improper sperm capacitation and/or fertilization.     

Cleavage pattern and survivin expression in porcine embryos by somatic cell nuclear transfer

Mammalian embryos produced in vitro show a high rate of early developmental failure. Numerous somatic cell nuclear transfer (SCNT) embryos undergo arrest and show abnormal gene expression in the early developmental stages. The purpose of this study was to analyze porcine SCNT embryo development and investigate the cause of porcine SCNT embryo arrest. The temporal cleavage pattern of porcine SCNT embryos was analyzed first, and the blastocyst origin at early developmental stage was identified. To investigate markers of arrest in the cleavage patterns of preimplantation SCNT embryos, the expression of survivin—the smallest member of the inhibitor of apoptosis (IAP) gene family, which suppresses apoptosis and regulates cell division—was compared between embryos showing normal cleavage and arrested embryos.A total of 511 SCNT embryos were used for cleavage pattern analysis. Twenty-four hours post activation (hpa), embryos were classified into five groups based on the cleavage stage as follows; 1-cell, 2-cell, 4-cell, 8-cell and fragmentation (frag). In addition, 48 hpa embryos were more strictly classified into 15 groups based on the cleavage stage of 24 hpa; 1-1 cell (24 hpa-48 hpa), 1-2 cell, 1-4 cell, 1-8 cell, 1 cell-frag, 2-2 cell, 2-4 cell, 2-8 cell, 2 cell-frag, 4-4 cell, 4-8 cell, 4 cell-frag, 8-8 cell, 8 cell-frag, and frag-frag. These groups were cultured until 7 d post activation, and were evaluated for blastocyst formation. At 24 hpa, the proportion of 2-cell stage was significantly higher (44.5%) than those in the other cleavage stages (1-cell: 13.4%; 4-cell: 17.9%; 8-cell: 10.3%; and frag: 13.9%). At 48 hpa, the proportion of embryos in the 2-4 cell stage was significantly higher (32.4%) than those in the other cleavage stages (2-8 cell: 8.2%; 4-8 cell: 12.1%; and frag-frag: 13.9%). Some embryos arrested at 48 hpa (1-1 cell: 5.8%; 2-2 cell: 2.8%; 4-4 cell: 3.8%; 8-8 cell: 6.5%; and total arrested embryos: 18.9%). Blastocyst formation rates were higher in 2-4 cell cleavage group (20.2%) than in other groups. SCNT embryos in 2-4 cell stage showed stable developmental competence. In addition, we investigated survivin expression in porcine SCNT embryos during the early developmental stages. The levels of survivin mRNA in 2-cell, 4-cell stage SCNT embryos were significantly higher than those of arrested embryos. Survivin protein expression showed a similar pattern to that of survivin mRNA. Normally cleaving embryos showed higher survivin protein expression levels than arrested embryos. These observations suggested that 2-4 cell cleaving embryos at 48 hpa have high developmental competence, and that embryonic arrest, which may be influenced by survivin expression in porcine SCNT embryos.     

The effect of 6-dimethylaminopurine (6-DMAP) and cycloheximide (CHX) on the development and chromosomal complement of sheep parthenogenetic and nuclear transfer embryos

The effects of activation by 6-dimethylaminopurine (6-DMAP) and cycloheximide (CHX) on the development and chromosomal complement of sheep parthenogenetic and SCNT embryos were investigated. The results revealed that the blastocyst development of parthenogenetic embryos was significantly higher (P < 0.05) in 6-DMAP activated oocytes, compared to those activated with CHX (21.0 +/- 0.9 vs. 14.9 +/- 0.5, respectively). In contrast, the blastocyst frequencies did not significantly differ (P > 0.05) between the two activation treatment groups for SCNT embryos. The 6-DMAP or CHX treatment did not result in any significant difference in the blastocyst total cell number in either parthenote or SCNT embryos. The chromosomal analysis revealed that all the parthenogenetic embryos (100.0%) derived from 6-DMAP treatment, were chromosomally abnormal whereas in CHX-treated embryos, it was significantly lowered (93.6%, P < 0.05). Conversely, the proportions of chromosomally abnormal SCNT embryos did not significantly differ (P > 0.05) among the 6-DMAP and CHX- treated embryo groups (60.0% vs. 56.2%, respectively). This study demonstrated that oocyte activation agents such as DMAP and CHX have differing effects on meiotic or mitotic nuclei. The study also highlighted the feasibility of using bovine X and Y chromosome specific painting probes in sheep embryos.     

Different activation treatments for successful development of bovine oocytes following intracytoplasmic sperm injection

In this study, the developmental capacity and cytogenetic composition of different oocyte activation protocols was evaluated following intracytoplasmic sperm injection (ICSI) of in vitro matured bovine oocytes. Motile spermatozoa selected by Percoll density gradient were treated with 5 mM dithiothreitol (DTT) and analysed for ultrastructural changes of the head using transmission electron microscopy (TEM). The alterations in sperm morphology after DTT treatment for different times (15, 30 and 60 min) were 10%, 45-55% and 70-85%, respectively. Further, a partial decondensation of sperm heads was observed after DTT treatment for 30 min. Oocytes were injected with sperm treated with DTT for 30 min. In group 1, sperm injection was performed without any activation stimulus to the oocytes. In group 2, sham injection without sperm was performed without activating the oocytes. Oocytes injected with sperm exposed to 5 microM ionomycin for 5 min (group 3), 5 microM ionomycin + 1.9 mM dimethylaminopurine (DMAP) for 3 h (group 4) and 5 microM ionomycin + 3 h culture in M199 + 1.9 mM DMAP (group 5) were also evaluated for cleavage, development and chromosomal abnormality. Cleavage and development rates in groups 1, 2 and 3 were significantly (p < 0.05) lower than those in groups 4 and 5. The incidence of chromosomal abnormality in the embryos treated directly with DMAP after ionomycin (group 4) was higher than in group 5. We conclude that immediate DMAP treatment after ionomycin exposure of oocytes results in arrest of release of the second polar body, and thus leads to changes in chromosomal pattern. Therefore, the time interval between ionomycin and DMAP plays a crucial role in bovine ICSI.     

Oocyte activation procedures and influence of serum on porcine oocyte maturation and subsequent parthenogenetic and nuclear transfer embryo development

The viability of SCNT embryos is poor, with an extremely low cloned piglet production rate. In the present work, we studied the effect of three activation protocols based on ionomycin treatment (5 microM ionomycin for 5 min and incubated in 2 mM 6-DMAP for 3.5 h) or electric stimuli (two square wave electrical DC pulses of 1.2 kV/cm for 30 micros) combined or not with 6-DMAP on parthenogenetic embryo development. Oocytes activated by ionomycin plus 6-DMAP showed lower cleavage (47.2 vs. 78.5-81.5; p < 0.05) and blastocyst rates (11.3 vs. 29.2-32.1; p < 0.05) than those activated by electrical and electrical plus 6-DMAP treatments. Also, we studied the effect of addition of serum to maturation medium (0% vs. 10%) on nuclear maturation and further parthenogenetic and SCNT embryo development. We observed in the parthenogenetic embryos that cleavage rates in the serum-free group were significantly higher than in the serum-supplemented group (81.8 vs. 69.6% respectively; p < 0.05), although these differences were not detected in blastocyst rates or blastocyst nuclei numbers. Regarding SCNT embryos, no significant differences were observed in cleavage or blastocyst rates between different experimental groups of SCNT embryos. In conclusion, electrical pulse followed or not by 6-DMAP was found to be an efficient procedure to artificially activate MII porcine oocytes. Moreover, the addition of serum to oocyte maturation media did not seem to improve parthenogenetic or SCNT porcine embryo development.     

Development of vitrified-thawed bovine oocytes after in vitro fertilization and somatic cell nuclear transfer

Cryopreservation could be a useful technique for providing a steady source of oocytes for nuclear transfer and in vitro embryo production. The purpose of this study was to develop a method for cryopreservation of bovine oocytes while maintaining the developmental potential following subsequent in vitro fertilization (IVF) or somatic cell nuclear transfer (SCNT). Following vitrification-thawing, the surviving oocytes were (a) used for parthenogenetic activation, (b) examined for pronuclear formation after IVF, (c) examined for embryo development after IVF, and (d) used for SCNT employing fetal fibroblasts transfected with green fluorescent protein (GFP) gene. While most of the oocytes survived vitrification when the microdrop method was used (92.50%), the cleavage and blastocyst formation rates after parthenogenetic activation were lower (46.5% and 11.1%) than that in the non-vitrified control (86.6% and 13.5%). After IVF, the pronuclear formation (2PN) of fertilized embryos was lower in the vitrified group than in the control (21.7% and 59.9%). After SCNT, fusion rates were similar in control (58.33%) and vitrified-thawed oocytes (53.19%). However, the cleavage (73.1% and 46.3%) and blastocyst formation rates (22.2%, 7.4%; p<0.05) differed between control and vitrified-thawed oocytes. In vitrified-thawed or control oocytes, all embryos reconstructed using fetal fibroblasts transfected with GFP gene showed GFP expression. To evaluate the complete developmental potential, embryos derived from vitrified-thawed and fresh control oocytes were non-surgically transferred to 27 recipients (16 for control and 11 for vitrified-thawed). In the vitrified-thawed group, two pregnancies were detected at day 60, and one of them lasted until day 222. While in the fresh group, one pregnancy maintained to term. In conclusion, vitrified-thawed bovine oocytes could support development into the subsequent stages after IVF and SCNT. In addition, this study showed the possibility of the vitrified-thawed bovine oocytes in the production of transgenic cloned animals. In addition, further studies are required to increase the efficiency of oocyte vitrification for the practical uses and production of live offspring.     

绵羊胞内单精子注射技术

In this study, the possibility of sheep transgenesis by intracytoplasmic sperm injection (ICSI) was assessed. In experiment 1, activation of ovine oocytes matured in vitro in preparation for ICSI has been investigated with 3.42 mmol/L Ca2+ treatment, ionomycin alone and ionomycin followed by 6-dimethylaminopurine (DMAP) after 3-h delay (group 1, 2 and 3, respectively). After activation, the oocytes were then cultured in SOFaaBSA medium. Cleavage rates were significantly (P<0.05) different among three groups (18.4%, 91.8% and 71.7%, respectively). In additional culture, no parthenotes in group 1, whereas 11% and 17.4% in group 2 and 3 developed to the blastocyst stage. Therefore we used the third activation method in the following ICSI tests. In experiment 2, development of ovine oocytes after ICSI was investigated. Thawed semen from two rams was separated by Percoll centrifugation and was used for ICSI or in vitro fertilization (IVF) trails. A total of 71.8% of oocytes reached the 2-cell stage following living sperm injection, which was significantly (p>0.05) different from those following IVF (41.4%) and sham-ICSI (30.2%). After seven days' culture, no sham-injected oocytes developed into the blastocyst stage, although 7% in ICSI and 16.1% in IVF-oocytes developed into the blastocyst stage, but there was no significant difference in ICSI and IVF groups (p>0.05). In the further study, the possibility of sheep transgenesis by ICSI was assessed. After coinjection of ovine oocytes matured in vitro with dead sperm cold to -20 degrees C and exogenous DNA encoding green fluorescent protein (GFP), seventy-three percent of coinjected oocytes developed to 2-cell stage (33/45) and two of them were transgene-expressing embryos. Among ten embryos at the 16-cell stage, all embryonic cells in one transgenic embryo still expressed GFP. Four coinjected blastocysts were thawed and transferred to the uterine of the two progesterone-synchronized recipient ewe. No pregnancies were detected on the 60th day. These results suggested sheep transgenic embryos could be produced by ICSI and further studies should be performed.     

Bovine parthenogenesis is characterized by abnormal chromosomal complements: Implications for maternal and paternal co-dependence during early bovine development

The present study was conducted to examine the karyotypes of parthenogenetic bovine embryos arising from the application of standard oocyte activation and diploidization methods. Bovine cumulus–oocyte complexes were collected and matured in vitro for 24 hr prior to oocyte activation with either 5 μM ionomycin or 7% ethanol for 5 min. Groups of activated oocytes were further treated with 5 μg/ml cytochalasin D or 1.9 mM 6-dimethylaminopurine (DMAP) for 6 hr. Cleavage varied significantly (P < .05) among the treatment groups with 68.0% of the ethanol- and DMAP-treated oocytes dividing. Blastocyst development did not vary with 18.4 ± 2.5% of all treated oocytes progressing to this stage. Blastocyst development did not occur in groups subjected to oocyte activation alone. Blastocysts displayed haploid (2.3%), diploid (11.4%), tetraploid (40.9%), octaploid (4.5%), and mixoploid chromosomal complements (40.9%). Two-cell stage parthenogenotes resulting from ethanol or ionomycin treatment alone displayed haploid (66.7%), diploid (16.7%), tetraploid (4.2%), and mixoploid (12.5%) complements. Our results demonstrate that diploid bovine parthenogenotes arising from these procedures are a minority, with the majority of parthenogenotes displaying polyploid and mixoploid chromosomal complements. The events contributing to these abnormal chromosomal complements occur as early as completion of the first cell cycle, possibly linking these events with the absence of a paternally supplied centrosome. Dev. Genet. 21:160–166, 1997. © 1997 Wiley-Liss, Inc.     

Activation of bovine oocytes following intracytoplasmic sperm injection (ICSI)

In the human and the mouse, intracytoplasmic sperm injection (ICSI) apparently triggers normal fertilization and may result in offspring. In the bovine, injection of spermatozoa must be accompanied by artificial methods of oocyte activation in order to achieve normal fertilization events (e.g., pronuclear formation). In this study, different methods of oocyte activation were tested following ICSI of in vitro-matured bovine oocytes. Bovine oocytes were centrifuged to facilitate sperm injection, and spermatozoa were pretreated with 5 mM dithiothreitol (DTT) to promote decondensation. Sperm-injected or sham-injected oocytes were activated with 5 microM ionomycin (A23187). Three hours after activation, oocytes with second polar bodies were selected and treated with 1.9 mM 6-dimethylaminopurine (DMAP). The cleavage rate of sperm-injected oocytes treated with ionomycin and DMAP was higher than with ionomycin alone (62 vs 27%, P < or = 0.05). Blastocysts (2 of 41 cleaved) were obtained only from the sperm-injected, ionomycin + DMAP-treated oocytes. Upon examination 16 h after ICSI, pronuclear formation was observed in 33 of 47 (70%) DMAP-treated oocytes. Two pronuclei were present in 18 of 33 (55%), while 1 and 3 pronuclei were seen in 8 of 33 (24%) and 7 of 33 (21%) oocytes, respectively. In sham-injected oocytes, pronuclear formation was observed in 15 of 38 (39%) with 9 (60%) having 2 pronuclei. Asa single calcium stimulation was insufficient and DMAP treatment could result in triploidy, activation by multiple calcium stimulations was tested. Three calcium stimulations (5 microM ionomycin) were given at 30-min intervals following ICSI. Two pronuclei were found in 12 of 41 (29%) injected oocytes. Increasing the concentration of ionomycin from 5 to 50 microM resulted in a higher rate of activation (41 vs 26%). The rate of metaphase III arrest was lower while the rate of pronuclear formation and cleavage development was higher in sperm-injected than sham-injected oocytes, suggesting that spermatozoa contribute to the activation process. Further improvements in oocyte activation following ICSI in the bovine are necessary.     

Expression of leptin ligand and receptor and effect of exogenous leptin supplement on in vitro development of porcine embryos

The present study investigated the expression of ligand and receptor for leptin, and the effect of leptin supplementation on preimplantation development of porcine in vitro fertilized (IVF) and somatic cell nuclear transfer (SCNT) embryos. The IVF embryos were produced using frozen boar semen and SCNT embryos were obtained by nuclear transfer of fetal fibroblasts into enucleated oocytes. The protein expression of leptin ligand and receptor was investigated in in vitro matured oocytes, 2-, 4- and 8-cell embryos, morulae and blastocysts derived from IVF and SCNT using immunofluorescence. Both the ligand and receptor were detected in in vitro matured oocytes and all stage of IVF and SCNT embryos. The IVF and SCNT embryos were cultured in modified North Carolina State University (mNCSU)-23 medium supplemented with various concentrations (0, 1, 10, 100 or 1000 ng/mL) of leptin. The rates of cleavage at day 2 and blastocyst formation at day 7, and cell number of blastocysts were monitored as experimental parameters. In SCNT embryos, supplementing with 1000 ng/mL leptin significantly (P<0.05) increased the rate of blastocysts formation (20.2% versus 12.9%) and total cell number (54.6+/-17.4 versus 45.1+/-15.2) compared to the control group. In IVF embryos, leptin supplementation did not affect preimplantation embryo development and cell number in blastocysts. In conclusion, the present study demonstrated the expression of leptin ligand and receptor and the embryotropic effect of leptin in SCNT embryos.     

Activation regimens for full‐term development of rabbit oocytes injected with round spermatids

The present study was designed to investigate the effect of activation regimens on full‐term development of rabbit oocytes after round spermatid injection (ROSI). In the first series, rabbit oocytes were treated with 5 µM ionomycin before ROSI, after ROSI, or before and after ROSI. In addition, non‐treated oocytes were subjected to intracytoplasmic sperm injection (ICSI) using ejaculated spermatozoa. Cleavage rate of ROSI oocytes activated before and after ROSI (55%) was comparable with that of ICSI oocytes (60%), and significantly higher than those of ROSI oocytes activated either before or after ROSI (29–39%; P < 0.05). No offspring were produced by transfer of the cleaving ROSI oocytes, while 8% of the cleaving ICSI oocytes transferred gave birth to offspring. In the second series, oocytes were exposed to 5, 10, or 20 µM ionomycin, followed by ROSI, 5 µM ionomycin treatment, and incubation with 5 µg/ml cycloheximide (CHX) + 2 mM 6‐dimethylaminopurine (DMAP). Significantly higher cleavage rates were derived from oocytes activated with 10 and 20 µM ionomycin before ROSI (91% and 82%, respectively; P < 0.05) compared to those activated with 5 µM ionomycin before ROSI (53%). Live offspring were obtained when the cleaving ROSI oocytes with the initial ionomycin treatment at 5 and 10 µM were transferred (offspring rate 2% and 4%, respectively). These activation regimens, however, were not valid for the ROSI using cryopreserved round spermatids. In conclusion, rabbit ROSI oocytes were capable of developing into full‐term when the oocytes were activated with a combined treatment of ionomycin and CHX/DMAP. Mol. Reprod. Dev. 76: 573–579, 2009. © 2008 Wiley‐Liss, Inc.