Effects of fetal calf serum, phenazine ethosulfate and either glucose or fructose during in vitro culture of bovine embryos on embryonic development after cryopreservation

This study investigated effects of hexoses, fetal calf serum (FCS), and phenazine ethosulfate (PES) during the culture of bovine embryos on blastocyst development and survival after cryopreservation by slow freezing or vitrification. The basal, control medium was chemically defined (CDM) plus 0.5% fatty acid-free BSA. In vitro-produced bovine zygotes were cultured in CDM-1 with 0.5 mM glucose; after 60 hr, 8-cell embryos were cultured 4.5 days in CDM-2. The 8-cell embryos were randomly allocated to a 2 x 3 x 2 x 3 factorial experimental design with two energy substrates (2 mM glucose or fructose); three additives (0.3 microM PES, 10% FCS, and control); two cryopreservation methods using no animal products (conventional slow freezing or vitrification); and semen from three bulls with two replicates for each bull. A total of 1,107 blastocysts were produced. Fructose resulted in 13% more blastocysts per oocyte than glucose (37.2% vs. 32.9%), and per 8-cell embryo (51.3% vs. 45.3%; P < 0.01). No differences were found for additives (P > 0.1) control, FCS, or PES for blastocysts per oocyte or per 8-cell embryo. There was a significant interaction (P < 0.05) between additives and hexoses for blastocyst production; although trends were similar, the benefit of fructose compared to glucose was greater for controls than for FCS or PES. Culture of embryos with PES, which reduces cytoplasmic lipid content, improved cryotolerance of bovine embryos; post-cryopreservation survival of blastocysts averaged over vitrification and slow freezing (between which there was no difference) was 91.9%, 84.9%, and 60.2% of unfrozen controls (P < 0.01) for PES, control, and FCS groups, respectively.     

Fetal calf serum enhances in vitro production of Bos taurus indicus embryos

The objective of this study was to determine the effect of fetal calf serum (FCS) on the quality of in vitro produced bovine embryos. Cumulus oocyte-complexes (COCs, n = 2 449) recovered by ovum pick-up from Bos taurus indicus donors were randomly assigned to experimental groups. Sperm selected by Percoll gradient was used for in vitro fertilization (insemination = Day 0). In Experiment 1 (n = 1 745 COCs), zygotes were cultured in vitro in Synthetic Oviduct Fluid + 4 mg/mL of bovine serum albumin (BSA), or BSA + 2% FCS (BSA+FCS). In Experiment 2 (n = 704 COCs), the COCs were cultured in SOF + BSA, BSA + 2% FCS, or BSA + 2% FCS on D4 (BSA + FCSD4). In Experiment 1, blastocyst yield (51%) and Quality I blastocysts (41%) at Day 7 were higher (P < 0.05) in the BSA + FCS treatment than in BSA (42 and 30%, respectively). In Experiment 2, blastocyst yield was higher (P < 0.05) in the BSA+FCS (47%) treatment. Quality I blastocyst yield was higher (P < 0.05) for BSA + FCS (34%) and BSA+FCSD4 (32%) compared to the BSA treatment (20%). A total of 820 embryos were transferred, with no significant differences among groups in pregnancy rates. In conclusion, in vitro culture in SOFaaci + BSA + FCS enhanced blastocyst yield and Quality I blastocysts; adding FCS to the culture medium increased the efficiency of IVP of bovine embryos.     

Vitrification of in vitro cultured rabbit morulae

In the present work, we attempt to establish an efficient vitrification procedure for 32-cell rabbit embryos obtained in vitro. In experiment 1, both the effect of the composition of the vitrification solutions and the cryoprotectant addition (either in one or two steps) were studied. For one-step addition, straws with embryos in the final vitrification solution (total time 60s) were plunged into liquid nitrogen. For two-step addition, previously embryos were 2 min pre-equilibrated in 0.5 ml of (1:1) PBS plus 20% FCS: vitrification solution without sucrose. Different solutions of cryoprotectants were compared: 25 vol.% ethylene glycol supplemented with 0.25 M sucrose (25EG+S) and 20% ethylene glycol plus 20% dimethyl sulfoxide, alone (20EG+20DMSO-S) or supplemented with 0.25 M sucrose (20EG+20DMSO+S). Six percent (30/487) of the total of 32-cell embryos obtained by in vitro culture in each experimental session was slow-frozen by a classical method as a technical efficiency control. Only 30% slow-frozen embryos reached blastocyst stage. Significant differences in embryo development were detected between the one-step (25EG+S) and two-step (25EG+S) groups and the one-step (20EG-20DMSO+S) and two-step (20EG-20DMSO-S) groups (0-6% versus 36-50%, respectively). Consequently, in the following experiments only these two vitrification procedures were used. In experiment 2, we attempted to substitute the use of PBS by HEPES-buffered Ham's F-10 (h-CM) in all cryoprotective solutions or media. When h-CM was used, a significant reduction in the in vitro embryo development was observed when the HEPES-buffered groups were compared with one-step (20EG-20DMSO+S) group in s-PBS (35-45% versus 73%). In experiment 3, the one-step (20EG+20DMSO+S) and two-step (20EG+20DMSO-S) procedures were assayed using two FCS levels (20 and 40%) in the PBS-based media. Relative to in vitro development, the highest rates were reached with one step (20EG-20DMSO+S), using PBS plus 20% FCS, which was different from two steps (20EG-20DMSO-S), regardless of percentage of FCS in the PBS-based media (81% versus 41-45%; P<0.05). In conclusion, we propose either the one step (20EG-20DMSO+S) or two steps (20EG-20DMSO-S) prepared in PBS plus 20% serum for use in future works.     

Co-culture of mouse embryos with oviduct and uterine cells prepared from mice at different days of pseudopregnancy

Oviduct and uterine cell cultures were prepared from mice at different days of pseudopregnancy and their effects on the development of 1- and 8-cell mouse embryos in co-culture were examined. One-cell mouse embryos in co-culture with oviduct cells from 20 h to 120 h after hCG had a mean (+/- s.e.) cell number of 70.1 +/- 3.6, significantly (P less than 0.001) higher compared with those cultured in Whittingham's T6 medium supplemented with 5% fetal calf serum (T6 + 5% FCS) (30.4 +/- 1.6). Transfer of embryos, at 96 h after hCG, to synchronous pseudopregnant recipients showed that more embryos in oviduct co-culture formed fetuses than those cultured in T6 + 5% FCS. Co-culture of 1-cell embryos with uterine cells did not confer an advantage in cell numbers over T6 + 5% FCS. However, more 8-cell embryos formed blastocyst outgrowths after 100 h in co-culture with uterine cells prepared from mice at Day 3 of pseudopregnancy than with uterine cultures prepared from mice at Day 1 of pseudopregnancy or oviduct cells. In addition, there was further improvement when the Day 3 uterine co-cultures were supplemented with 1 or 10 ng progesterone/ml. These results highlight the importance of the oviduct and uterine cells during the different stages of preimplantation embryo development.     

Effects of interval between fusion and activation, cytochalasin B treatment, and number of transferred embryos, on cloning efficiency in goats

To improve the efficiency of somatic cell nuclear transfer (SCNT) in goats, we evaluated the effects of the interval between fusion and activation (1 to 5 h), cytochalasin B (CB) treatment after electrofusion, and the number of transferred embryos on the in vivo and in vitro development of cloned caprine embryos. The majority of the reconstructed embryos had condensed chromosomes and metaphase-like chromosomes at 2 and 3 h after fusion; cleavage and blastocyst rates from those two groups were higher (P < 0.05) than those of embryos activated 1, 4, or 5 h after fusion. Treatment with CB between fusion and activation improved in vitro and in vivo development of nuclear transfer (NT) goat embryos by reducing the fragmentation rate (P < 0.05). Although there were no significant differences in NT efficiency, pregnancy rate and kids born per recipient were increased by transfer of 20 or 30 embryos per recipient compared with 10 embryos. We concluded that CB treatment for 2 to 3 h between fusion and activation was an efficient method for generating cloned goats by somatic cell NT. In addition, increasing the number of embryos transferred to each recipient resulted in more live offspring from fewer recipients.     

牛体外受精卵在两种共同培养系统中发育的研究

为了使牛体外受精卵能通过体外早期发育阻滞期,我们建立了卵丘细胞单层(A)和输卵管上皮单层(B)两种共同培养系统。A1共同培养实验是在本实验室进行的,A2和B共同培养实验均在日本岗山大学农学部动物繁殖学研究室进行,牛输卵管组织的分离使用0.76％EDTA—PBS溶液,共同培养系统均使用含10％小牛血清的TCM—199(Earle's salts)作为培养液。培养的卵泡卵母细胞体外成熟率为100％,体外受精率为99—100％。在A1共同培养实验中,越过阻滞期发育到16—细胞以上的胚胎占卵裂胚的35.7％,与A2共同培养实验中越过阻滞期的发育率(40.1％)无显著差异(P<0.05)。A1和A2共同培养实验,在卵裂基础上得到的桑椹胚和囊胚发育率分别为23.7％和27.9％。每百枚培养的卵母细胞,在A1共同培养实验中可获得桑椹胚和囊胚15.1枚,在A2共同培养实验中可获桑椹胚和囊胚的20.5枚。B共同培养实验中桑椹胚和囊胚发育率为54.1％,显著高于A1或A2共同培养实验的相应发育率(P<0.001),使用B共同培养系统每百枚培养的卵母细胞可以获得37枚桑椹胚和囊胚。     

Regenerated bovine fetal fibroblasts support high blastocyst development following nuclear transfer

Regenerated bovine fetal fibroblast cells were derived from a fetus cloned from an adult cow and passaged every 2-3 days. Serum starvation was performed by culturing cells in DMEM/F-12 supplemented with 0.5% FCS for 1-3 days. In vitro matured bovine oocytes were enucleated by removing the first polar body and a small portion of cytoplasm containing the metaphase II spindle. Cloned embryos were constructed by electrofusion of fetal fibroblast cells with enucleated bovine oocytes, electrically activated followed by 5 h culture in 10 microg/mL cycloheximide + 5 microg/mL cytochalasin B, and then cultured in a B2 + vero-cell co-culture system. A significantly higher proportion of fused embryos developed to blastocysts by day 7 when nuclei were exposed to oocyte cytoplasm prior to activation for 120 min (41.2%) compared to 0-30 min (28.2%, p < 0.01). Grade 1 blastocyst rates were 85.1% and 73.3%, respectively. The mean number of nuclei per grade 1 blastocyst was significantly greater for 120 min exposure (110.63 +/- 7.19) compared to 0-30 min exposure (98.67 +/- 7.94, p < 0.05). No significant differences were observed in both blastocyst development (37.4% and 30.6%) and mean number of nuclei per blastocyst (103.59 +/- 6.6 and 107.00 +/- 7.12) when serum starved or nonstarved donor cells were used for nuclear transfer (p > 0.05). Respectively, 38.7%, 29.4%, and 19.9% of the embryos reconstructed using donor cells at passage 5-10, 11-20 and 21-36 developed to the blastocyst stage. Of total blastocysts, the percentage judged to be grade 1 were 80.9%, 79.2%, and 54.1%, and mean number of nuclei per grade 1 blastocysts, were 113.18 +/- 9.06, 100.04 +/- 6.64, and 89.25 +/- 6.19, respectively. The proportion of blastocyst percentage of grade 1 blastocysts, and mean number of nuclei per grade 1 blastocyst decreased with increasing passage number of donor cells (p < 0.05). These data suggest that regenerated fetal fibroblast cells support high blastocyst development and embryo quality following nuclear transfer. Remodeling and reprogramming of the regenerated fetal fibroblast nuclei may be facilitated by the prolonged exposure of the nuclei to the enucleated oocyte cytoplasm prior to activation. Serum starvation of regenerated fetal cells is not beneficial for embryo development to blastocyst stage. Regenerated fetal fibroblast cells can be maintained up to at least passage 36 and still support development of nuclear transfer embryos to the blastocyst stage.     

Development of sheep preimplantation embryos in media supplemented with glucose and acetate

Two experiments were conducted to examine the effect of supplemental glucose (G; 1.5 mM) and/or acetate (A; 0.5 mM) on the development of early sheep embryos to blastocysts when cultured in vitro in glucose-free synthetic oviductal fluid (SOF) + sheep serum or bovine serum albumin (BSA). In Experiment 1, 2- to 4-cell, 8- to 16-cell and >16-cell embryos were cultured in SOF, SOF+G, SOF+A or SOF+G+A. All media were supplemented with 10% sheep serum. In addition, embryos were cultured in either microdrops under polysiloxane oil or in multiwell dishes. Overall, development to the blastocyst stage was 3%, 30% and 68% for 2- to 4-cell, 8- to 16-cell and >16-cell stages, respectively, suggesting that an 8-cell developmental block existed under our culture conditions. Glucose supplementation had little effect on embryo development, and no overall effect was observed from the addition of acetate. In Experiment 2, 8- to 16-cell embryos were cultured in SOF or SOF+G, both supplemented with BSA. Development to the blastocyst stage was 25% and 18%, respectively. The results show that the presence of glucose or acetate did little to enhance embryonic development in our incubation systems. Further work is required to evaluate fully the energy requirements for development of the early sheep embryo.     

Effects of hyaluronic acid on the development of 1- and 2-cell porcine embryos to the blastocyst stage in vitro

The purpose of this study was to evaluate the ability of hyaluronic acid to improve the development of 1- and 2-cell porcine embryos to the blastocyst stage in a simple medium. In Experiment 1, we confirmed the ability of Whitten's medium supplemented with 15 mg/ml BSA to support the development of porcine embryos to the blastocyst stage under our experimental conditions. Embryos collected from oviducts were cultured at 38.5 degrees C in an atmosphere of 5% CO(2) in humidified air up to 6 d. After 2 d of culture, 82 and 78% of embryos reached the 4-cell stage or beyond in TCM199 supplemented with 10% fetal calf serum (FCS) and in Whitten's medium with BSA, respectively. However, no embryo developed to the morula stage in TCM199 after 6 d of culture. On the other hand, 26 and 15% of embryos developed to the morula and the blastocyst stage in Whitten's medium, respectively. In Experiment 2, we determined whether supplementation of hyaluronic acid in Whitten's medium would improve the development of porcine embryos to the blastocyst stage. After 6 d of culture, development of the embryos to the blastocyst stage was best supported in Whitten's medium with 4 mg/ml BSA and 0.5 mg/ml hyaluronic acid (70%). The proportion of degenerated embryos was lower in the presence than in the absence of hyaluronic acid. These results indicate that the supplementation of Whitten's medium with hyaluronic acid improves the development of 1- and 2-cell porcine embryos to the blastocyst stage.     

Successful in vitro and in vivo development of in vitro fertilized two- to four-cell cat embryos following cryopreservation, culture and transfer

In vitro and in vivo survival of in vitro-derived 2- to 4-cell cat embryos following cryopreservation was examined. Prefreeze 1- vs 2-step cryoprotectant exposure (Experiment 1) and warming method (Experiment 2) on zona pellucida damage and development in vitro were compared. To determine viability in vivo, frozen/thawed embryos were cultured in vitro to the morula/early blastocyst stage and transferred to synchronous recipients (Experiment 3). At 24 to 26 h after IVF, embryos were cryopreserved in 1.4 M propanediol (Pr) + 0.125 M sucrose (Su) by cooling at 0.3 degrees C/min from -6 degrees C to -30 degrees C and storing in liquid nitrogen. Autologous embryos were cultured in vitro for 7 d. After warming for 5 sec in air and 10 sec at 37 degrees C in water (Experiments 1 to 3), or at room temperature air (22 degrees C; Experiment 2), the cryoprotectant was removed and embryos were cultured in vitro for 6 d (Experiments 1 and 2). Development was assessed after staining by counting cell numbers/embryo and determining the percentages at the 2- to 4-cell (nonsurvivor), pre (5 to 15), early (16 to 32), mid (33 to 50), late (>50) morula or blastocyst stages. Post-thaw development to late morula/blastocyst after 1-step exposure (68%, 15 min Pr + Su) was higher (P< 0.05) than that after 2-step exposure (36%, 15 min Pr and 15 min Pr + Su). Both warming methods produced similar percentages of embryos with damaged zonae (13 to 15%) and equivalent development to morula/blastocyst (64 to 69%). Development in vitro to early morula/blastocyst of frozen embryos with intact zonae was similar to that of nonfrozen embryos. Following cryopreservation, most 2- to 4-cell cat embryos retained their capability for in vitro development to morula/blastocyst, and in vivo viability was demonstrated by the birth of 3 live kittens to 2 of 4 recipients following the transfer of 58 embryos.     

Co-culture of rabbit 2-cell embryos with rabbit oviduct epithelial cells and other somatic cells

Rabbit 2-cell embryos were co-cultured in Basel Synthetic Medium II + 10% fetal bovine serum with one of the following: primary cultures of rabbit oviduct epithelial cells (ROEC), a rabbit kidney epithelioid cell line (RK13), a rabbit epidermal epithelioid cell line (Sf1), or a rabbit skin fibroblast-like cell line (RAB9). Embryos cultured in medium alone served as controls. After 4 d of culture at 39 degrees C in 5% CO2 in air, 77-93% of the rabbit embryos which were co-cultured with somatic cells had reached the blastocyst stage, and 60-76% were hatching through their zonae pellucidae. These percentages, however, were not significantly different (P greater than .05) from those of embryos in medium alone, of which 90% had reached the blastocyst stage and 83% were hatching. Mean intrazonal embryo diameters also did not differ significantly among treatments (239-302 microns). Bovine 1-8-cell embryos were also co-cultured with ROEC. This stimulated 60% of these embryos to develop beyond the so-called "16-cell block" in vitro, whereas 0% of the embryos cultured in medium alone developed past this block. Evaluation of the ROEC cultures by light microscopy, immunocytochemistry, and gel electrophoretic analysis of conditioned medium, together with the positive results with bovine embryos, indicate that the ROEC culture partially simulates oviductal conditions in vivo. Therefore, our results suggest that oviduct epithelial cells may play a less pivotal role in regulating early development in the rabbit than in the cow.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effect of quick-freezing in ethylene glycol on morphological survival and in vitro development of mouse embryos frozen at different preimplantation stages

This study was conducted to examine the effect of a quick-freezing protocol on morphological survival and in vitro development of mouse embryos cryopreserved in ethylene glycol (EG) at different preimplantation stages. One-cell embryos were harvested from 6-to 8-wk-old CB6F1 superovulated mice, 20 to 23 h after pairing with males of the same strain and hCG injection. The embryos were cultured in human tubal fluid (HTF) containing 4 mg/ml BSA under mineral oil at 37 degrees C in 5% CO(2) plus 95% room air at maximal humidity. Twenty-four to 96 h after collection, the embryos were removed from culture and frozen at the 2 cell, 4 to 8-cell, compact morula, early blastocyst, expanding blastocyst and expanded blastocyst stages. To perform the quick-freeze procedure, embryos were equilibrated in Dulbecco's phosphate buffered saline (DPBS) + 10 % fetal bovine serum (FBS) + 0.25 M sucrose + 3 M ethylene glycol (freeze medium) for 20 min at room temperature (22 to 26 degrees C) and loaded in a single column of freeze medium into 0.25-ml straws (4 to 5 embryos per straw). The straws were held in liquid nitrogen vapor for 2 min and immersed in liquid nitrogen. Embryos were thawed by gentle agitation in a 37 degrees C water bath for 20 sec and transferred to DPBS + 10 % FBS + 0.5 M sucrose (re-hydration medium) for 10 min at room temperature, rinsed 2 times in HTF plus 4 mg/ml BSA and then cultured for 24 to 96 h. Survival of embryos was based on their general morphological appearance after thawing and their ability to continue development upon subsequent culture in vitro. Survival of blastocysts after thawing also required expansion or reexpansion of the blastocoel after several hours in culture. Significant differences were found in the survival and development of mouse embryos at different developmental stages quick-frozen in ethylene glycol and sucrose: 2-cell embryos 43/84 (51%), 4 to 8-cell embryos 44/94 (47%), morulae and early blastocysts 56/70 (80%; P相似文献   

Effect of visual light on in vitro embryonic development in the hamster

The effect of light exposure during collection and culture of hamster embryos on their subsequent development in vitro was examined. When embryos were collected under dark conditions (70 lux) within 10 minutes and then cultured in a HECM-1 medium in 5% CO(2) in air, the developmental rates of 1-cell embryos to the 4- and 8-cell stages were 88.6% (93 105 ) and 66.7% (70 105 ), respectively. These rates were significantly higher than those under light conditions (1600 lux): 51.9% (56 108 ) and 34.3% (37 108 ). Light irradiation during the culture of 1-cell embryos suppressed subsequent development. The degree of suppression correlated inversely with duration of light irradiation, and light irradiation of 30 minutes or more completely blocked development to the 2-cell stage. When 1-cell embryos were irradiated through a yellow filter, cutting the light wavelengths to less than 500 nm, embryonic development was still suppressed. However, the degree of the suppression varied and 45.7% (53 116 ), 6.0% (7 116 ), and 0.9% (1 116 ) of the embryos developed to the 2-, 4-, and 8-cell stages, respectively, under 30 minute light irradiation. Inhibitory effects of light irradiation on the development of 2- and 8-cell embryos were also observed, showing an inverse correlation with duration; the developmental rates of 2-cell embryos to the 8-cell stage under 0, 10, and 30 minutes of irradiation were 85.6% (107 125 ), 1.6% (2 122 ), and 0% (0 129 ), respectively, and those of 8-cell embryos to the blastocyst stage were 79.8% (91 114 ), 74.8% (86 115 ), and 0% (0 110 ), respectively. These findings indicate that early-stage embryos are sensitive to light exposure; however, severe light exposure adversely affects the development of embryos at any stage. Thus, the protection of embryos from light exposure at all stages of embryo manipulation, from collection to culture, is essential.     

Effects of nitrous oxide on preimplantation mouse embryo cleavage and development

Preimplantation mouse embryos were exposed to nitrous oxide for 30 min to determine its effects on subsequent development after short durations of exposure. Two-cell mouse embryos were exposed to 60% nitrous oxide/40% oxygen at 6-7 h, 3-4 h, or 0-1 h prior to the expected onset of their first cleavage in vitro, or at the 4-cell or morula stages. Effects of nitrous oxide were not observed except in 2-cell embryos treated within 4 h of the expected in vitro cleavage. At 3-4 h and 0-1 h prior to the onset of cleavage, exposure to 60% nitrous oxide/40% oxygen resulted in blastocyst development rates of 27.7% and 4.7%, respectively, while control rates ranged from 75% to 77%. The majority of affected embryos were halted at the 2-cell stage before completing cell division. Similar effects were obtained with 80% nitrous oxide/20% oxygen. Thus, we conclude that brief exposure of mouse preimplantation embryos to nitrous oxide may be deleterious to subsequent embryo cleavage, but this effect is highly dependent on the developmental stage at which exposure occurs.     

Development and calcium level changes in pre-implantation porcine nuclear transfer embryos activated with 6-DMAP after fusion

This study investigated the effect of treatment with 6-dimethylaminopurine (6-DMAP) following fusion on in vitro development of porcine nuclear transfer (NT) embryos. Frozen thawed ear skin cells were transferred into the perivitelline space of enucleated oocytes. Reconstructed oocytes were fused and activated with electric pulse in 0.3 M mannitol supplemented with either 0.1 or 1.0 mM CaCl(2). In each calcium concentration, activated oocytes were divided into three groups. Two groups of them were exposed to either ionomycin (I + 6-DMAP or 6-DMAP alone. In experiment 2, fused NT embryos in 0.3 M mannitol containing 1.0 mM CaCl(2) were exposed to 6-DMAP either immediately or 20 min after fusion/activation. For 0.1 mM CaCl(2), oocytes activated with either I + 6-DMAP or 6-DMAP alone showed a higher (P < 0.05) developmental rate to the blastocyst stage than those activated with an electric pulse alone (26.7 and 22.5 vs. 12.5%). For 1.0 mM CaCl(2), oocytes activated with either I + 6-DMAP or 6-DMAP alone showed significantly higher (P < 0.05) developmental rate to the blastocyst stage (35.6 and 28.3 vs. 19.8%). Developmental rate to the blastocyst stage was (P < 0.05) increased in NT embryos activated with 6-DMAP 20 min after fusion. 6-DMAP made a higher and wider Ca(2+) transient compared to that induced by electric pulses (Fig. 3). The fluctuation lasted during the time that oocytes were cultured in 6-DMAP. Regardless of Ca(2+) concentration in fusion medium, activation with 6-DMAP following electric pulses supported more development of porcine NT embryos. Activation of NT embryos with 6-DMAP after fusion in the presence of 1.0 mM CaCl(2) could support better developmental rate to the blastocyst stage.     

Effects of the removal of cytoplasm on the development of early cloned bovine embryos

Oocyte cytoplasm plays a prominent role in cloned embryonic development. To investigate the influence of oocyte cytoplasmic amount on cloned embryo development, we generated bovine somatic cell nuclear transfer (SCNT) embryos containing high (30-40% of the cytoplasm was removed), medium (15-25% of the cytoplasm was removed) and low (<10% of the cytoplasm was removed) nucleocytoplasmic volume ratios (N/C) using enucleated metaphase II oocyte as recipient, and fibroblast as donor nucleus, and analyzed the expression levels of ND1, Cytb and ATPase6, as well as the embryonic quality. The results indicated: (1) the process of embryonic development was not influenced by <40% of cytoplasm removal; (2) the rate of blastocyst formation, the total number of blastomere and the ratio of ICM to TE were inversely proportional to the N/C; (3) SCNT embryos with reduced volume equal to 75-85% or >90% of an intact oocyte volume showed similar karyotype structure of the donor cells; (4) the number of mtDNA copy was larger in low N/C embryos than that in medium or high N/C embryos, and the expression levels of each gene hardly varied from the 2-cell to 8-cell stage, while the expression levels increased dramatically at the blastocyst stage; (5) from 16-cell to the blastocyst stage, the change of the expression level of each gene was not significant between low N/C embryos and IVF embryos, but it was more significant than those of high or medium N/C embryos. The results suggest that the decrease of mtDNA copy number and mitochondrial gene expression may be related to the impairment in early embryonic development, and removal of <10% adjacent cytoplasm volume may be optimal for bovine SCNT embryo development.     

Effect of biopsy and vitrification on in vitro survival of ovine embryos at different stages of development

The objective of the present study was to assess the in vitro viability of ovine embryos at different stages of development after combining cell sampling and vitrification. Precompacted morulae, compacted morulae and blastocysts were obtained from superovulated Sarda ewes at 4, 5 or 6 d following insemination. Embryo cell biopsy was carried out in a 100-microl drop of PBS + 10% fetal calf serum (FCS) with 10 micromol nocodazole and 7.5 microg/ml cytochalasin-b by aspiration (3-5 cells). Embryos were cryopreserved at room temperature after exposure of 2 solutions for 5 min, transferred into a vitrification solution, loaded into the center of 0.25-ml straws separated by air bubbles from 2 columns of sucrose 0.5 M and plunged immediately into liquid nitrogen. In Experiment 1, the in vitro viability of manipulated or vitrified embryos after in vitro co-culture in TCM 199 medium with 10% FCS and sheep oviductal epithelial cells (SOEC) in 5% CO2 humidified atmosphere in air at 39 degrees C was significantly lower (P < 0.05 and P < 0.01, respectively) at precompacted morula (60 and 30%) and compacted morula (62 and 39%) stages than intact embryos at the same stages (87 and 88%). No differences were found at the blastocyst stage. In Experiment 2, the in vitro survival rate of precompacted morulae which were manipulated and immediately vitrified was lower (P < 0.05) than in those manipulated and, after a temporary period of culture, vitrified at blastocyst stage (21 vs 48%); while no differences were found at compacted morula and blastocyst stages. The results show that 1) the stage of development influences the subsequent in vitro viability of manipulated and vitrified ovine embryos, 2) temporary culture after manipulation and before vitrification improves the in vitro viability of embryos, and 3) the hole in the zona pellucida resulting from biopsy does not affect blastocyst survival after subsequent vitrification.     

Addition of penicillamine, hypotaurine and epinephrine (PHE) or bovine oviductal epithelial cells (BOEC) alone or in combination to bovine in vitro fertilization medium increases the subsequent embryo cleavage rate

The cleavage rate of in vitro-matured bovine oocytes was compared after fertilization in 1) TALP medium alone (control); 2) in TALP + BOEC; 3) in TALP + PHE; or 4) in TALP + BOEC and PHE. The overall cleavage rate at 45 h post insemination was greater for embryos in Treatments 2 (52%), 3 (55%) and 4 (66%) than for Treatment 1 (32%). The oocyte cleavage rates for Treatments 2 and 3 were similar, but were lower than that of Treatment 4. Addition of PHE or BOEC, alone or in combination, to the fertilization medium resulted in more embryos at the 3- or 4-cell stage than the 2-cell stage by 45 h post insemination. After 5 d of co-culture with BOEC in M-199 medium, 21, 28, 25 and 35% of the cleaved embryos in Treatments 1, 2, 3 and 4, respectively, developed to the morula or blastocyst stage. The rate of development to morulae and blastocysts was similar among Treatments 1, 2 and 3, and between Treatments 2 and 4. Across treatments, a correlation of 0.98 was noted between the portion of embryos that had reached the 3- or 4-cell stage by 45 h post insemination and the percentage of embryos in each treatment that continued to develop to the morula or blastocyst stage in vitro.