A serum-free medium for use in a cumulus cell co-culture system for bovine embryos derived from in vitro maturation and in vitro fertilization

The objective of this study was to develop a serum-free medium for the co-culture of bovine embryos that would yield a percentage of blastocysts equal to that obtained with fetal bovine serum (FBS)-supplemented medium. Cumulus cell-enclosed oocytes (CEO) matured and inseminated in vitro were cultured in a tissue culture medium (TCM)-199 or in a serum-free medium (bovine embryo culture medium; BECM) until 240 h post insemination. Replacement of 10% (v/v) FBS with either 3 mg crystallized bovine serum albumin (BSA)/ml or 3 mg fatty acid-free BSA/ml in TCM-199 had no effect (P > 0.14) on embryo development to the >or= 2-cell (51 to 60%), >or= 8-cell (24 to 33%), blastocyst (16 to 19%) and hatched-blastocyst (7 to 10%) stages at 48, 96, 192 and 240 h post insemination, respectively. Oocyte-enclosing cumulus cells in BSA-supplemented medium grew in clusters rather than in layers, as was noted in FBS-supplemented medium. When CEO were cultured in fatty acid-free BSA-supplemented media (TCM-199 and BECM), a significantly (P < 0.001) higher percentage of oocytes developed to blastocysts after culture with (22%) or without (18%) a cumulus cell monolayer than after denuding the oocytes (7%). Glucose in concentrations of 0 to 5.56 mM added for periods of 18 and 120 h post-insemination had neither a stimulatory nor a deleterious effect on preimplantation development. In conclusion, a serum-free medium supplemented with BSA can be successfully used in a cumulus cell co-culture system for bovine embryos.     

Development of bovine embryos in a cell-free culture medium: Effects of type of serum, timing of its inclusion and heat inactivation

Bovine embryos, derived from in vitro matured (IVM)/in vitro fertilized (IVF) ova, were used to investigate the effects of timing of serum inclusion in the culture medium and different types of blood sera and heat inactivation of the serum on embryo development. In Experiment 1, oocytes at 18 h post insemination were allocated to 1 of the following 4 treatments: 1) TCM-199 + 0.1 mg/ml polyvinylalcohol (PVA), 2) TCM-199 supplemented with 10% bovine calf serum (BCS), 3) PVA medium followed by BCS medium at 47 h, or 4) PVA medium followed by BCS medium at 82 h. Supplementation with BCS at 18 h post insemination suppressed (P<0.05) development of morulae/blastocysts (17.6%) when compared with PVA (30.5%) or with serum supplementation at 47 or 82 h post insemination (32.4 and 27.6%, respectively). However, inclusion of BCS at 18, 47 or 82 h post insemination produced more blastocysts (16.8, 29.3 and 22.1%, respectively; P<0.05) than medium +PVA (8.8%). In Experiment 2, ova were cultured from 18 h to 42 h post insemination in PVA-medium, then >/=2-cell embryos were transferred into serum-supplemented medium for another 168 h. Fetal bovine serum (FBS) +/- heat-inactivation (56 degrees C for 30 min, = heated FBS) suppressed morula/blastocyst development compared with medium + PVA, medium + BCS or medium + heated BCS (P<0.05). Bovine calf serum was superior to FBS in supporting blastocyst development (35.1 and 15.2%, respectively), but there was no difference between BCS and heated BCS. However, heated FBS increased the proportion of blastocysts/>/=8-cell embryos compared with that of FBS (51.0 and 31.4%, respectively; P<0.05). These results indicate that the type of serum supplementation and the timing of its inclusion in the culture medium markedly affect bovine embryo development in vitro, and that heat inactivation of serum with high embryotrophic properties is not necessary.     

Exposure of bovine oocytes to EGF during maturation allows them to develop to blastocysts in a chemically-defined medium

When cumulus-enclosed bovine oocytes were cultured for 24 h in serum-free medium containing 0 to 50 ng/ml EGF, the proportions of oocytes reaching metaphase II were higher (P < 0.05) in the presence of 30 ng/ml EGF (88.1 +/- 1.3%) than under control conditions (65.5 +/- 3.5%) or in the presence of 10 ng/ml (73.9 +/- 4.5%) and 50 ng/ml (73.6 +/- 4.0%) EGF. When oocytes matured under these conditions were inseminated in vitro, the proportions of oocytes penetrated were higher (P < 0.05) in 10 to 50 ng/ml EGF (96.7 +/- 3.3 to 100%) than in its absence (77.9 +/- 8.9%). However, the proportions of penetrated oocytes with male and female pronuclei did not differ among the different groups (96.7 +/- 3.3 to 100%). When oocytes were matured under the same conditions, fertilized in vitro, and cultured until 192 h post insemination in a chemically-defined medium, the proportion of embryos at the >/=2-cell stage was higher (P < 0.05) in the groups treated with 30 ng/ml (96.1 +/- 2.5%) and 50 ng/ml (90.6 +/- 3.5%) EGF than in the controls (71.8 +/- 3.1%) at 48 h post insemination. Although there were no differences in the proportions (37.3 +/- 5.3 to 47.2 +/- 5.8%) of >/=morulae at 144 h post insemination among treatments, the proportion of embryos developing to the blastocyst stage was higher (P < 0.05) in the presence of 10 to 50 ng/ml EGF (16.5 +/- 2.0 to 20.8 +/- 4.9%) than in control medium (3.4 +/- 2.1%). The mean blastocyst cell number at 192 h post insemination did not differ between culture media in the presence (91 to 107 cells) and the absence (116 cells) of EGF (10 to 50 ng/ml) during maturation. Thus, higher proportions of oocytes matured in serum-free medium with EGF than without EGF could develop to the blastocyst stage in a chemically-defined medium after in vitro fertilization. These results indicate that EGF can induce not only nuclear maturation but also cytoplasmic maturation of cumulus-enclosed bovine oocytes in vitro.     

Embryotrophic effects of ethylenediaminetetraacetic acid and hemoglobin on in vitro porcine embryos development

This study investigated the embryotrophic effects of ethylenediaminetetraacetic acid (EDTA) and hemoglobin (Hb) on porcine preimplantation embryo development. Porcine embryos produced by in vitro maturation/fertilization were cultured for 6 days in modified North Carolina State University-23 medium (mNCSU-23) supplemented with EDTA and/or Hb. In Exp. 1, culturing porcine zygotes with 100 microM EDTA significantly increased cleavage frequencies (85.3%) at 48 h post insemination and the number of inner cell mass (ICM) (9.6+/-5.5) compared to the control (7.0+/-2.8). However, 100 microM EDTA did not improve blastocyst formation compared to 0, 1 or 10 microM EDTA. In Exp. 2, in vitro fertilized oocytes were cultured with 0, 1 or 10 microg/ml Hb. Culturing with Hb did not promote porcine embryo development, but significantly increased the cell numbers of blastocysts in 1 microg/ml Hb compared to 0 or 10 microg/ml Hb. In Exp. 3, culturing embryos with 100 microM EDTA+1 microg/ml Hb significantly improved frequencies of cleavage, blastocyst formation, and total cell numbers in blastocysts compared to the control. Moreover, 100 microM EDTA, 1 microg/ml Hb and their combination reduced reactive oxygen species (ROS) accumulation and decreased the incidence of apoptosis. In conclusion, the present study clearly demonstrated that the combining treatment of EDTA and Hb improved IVF porcine embryo development.     

Influence of time of gene microinjection on development and DNA detection frequency in bovine embryos

The effect of DNA microinjection at various times afterin vitro insemination on DNA detection and survival rates of bovine embryos was investigated. Oocytes were inseminated 24 h after maturation with frozen/thawed semen prepared with a Percoll separation procedure. At 11, 15 and 19 h after insemination, embryos were centrifuged to visualize pronuclei and microinjected with a murine whey acidic protein-human protein C genomic DNA construct. After culture for 7 days on Buffalo Rat Liver cells, embryos were assessed for stage of development and assayed for the presence of the transgene by polymerase chain reaction. Of zygotes in the 11h after insemination treatment, 16% (25/152) of non-injected and 7% (11/161) of injected embryos developed to the morula or blastocyst stage. Comparable development of non-injected and injected embryos treated at 15h after insemination was 15% (23/158) and 4% (6/159) and treated at 19 h after insemination was 14% (23/162) and 1% (1/165), respectively. Development of injected embryos was greater (p<0.05) when injection was performed at 11 h after insemination compared to 19 h after insemination. Development of non-injected embryos was greater (p<0.01) than that of injected embryos. There was no difference in transgene detection frequency in embryos of all developmental states between treatments (53% at 11; 50% at 15; 48% at 19h after insemination). Injected embryos testing positive for the presence of the transgene exhibited increased development over negative embryos (p<0.01). Greater development efficiencies can be obtained in microinjected bovine embryos when injection is performed early in pronuclear formation.     

Effect of gas atmosphere on the development of one-cell bovine embryos in two culture systems

The effect of two concentrations of oxygen on the development of bovine embryos was compared using two separate co-culture systems. In Experiment I, bovine oocytes were matured and fertilized in vitro and were then co-cultured for 7 days in 20 mul drops of M199 with 10% fetal calf serum containing oviduct cells. When cultures were performed in an atmosphere of 5% CO(2) in air (20% O(2)) or in a mixture of 5% CO(2), 5% O(2) and 90% N(2) (5% O(2)), 22 of 179 (12%) and 56 of 179 (31%) zygotes developed to or beyond the late morula stage (P<0.0001), respectively. After freezing, thawing and 48 hours of additional culture, 2 of 21 (10%) and 18 of 53 (34%) embryos were judged viable (P<0.001) within the respective treatment groups. In Experiment II, zygotes produced by the same means were co-cultured in 0.5 ml of M199 containing 10% fetal calf serum with monolayers of buffalo rat liver (BRL) cells. In 20% O(2), 51 of 177 (29%) zygotes developed into viable embryos, while in 5% O(2) only 9 of 177 (5%) were judged viable after 7 days of culture (P<0.0001). Post-freezing survival rates were 53% and 67% for embryos from the two respective oxygen concentration treatment groups. The transfer of 20 Grade 1 frozen/thawed embryos produced by co-culture with BRL cells produced six pregnancies (30%). These experiments show that the critical effect of oxygen concentration on embryo development in vitro and the ability of embryos produced by in vitro procedures to survive freezing can be influenced by the type of culture system employed.     

Developmental potential of early bovine zygotes submitted to centrifugation and microinjection following in vitro maturation of oocytes

This study was designed to investigate the potential use of in vitro matured, in vitro fertilized bovine zygotes for producing transgenic calves by microinjection of foreign DNA. In Experiment 1, the effect of centrifugation (4 min, 15,000 x g, 20 degrees C) on in vitro derived bovine zygotes was evaluated. In vitro development from 2 to 8 cells was not affected (80 vs 78%) when control zygotes (n = 211) were compared with zygotes treated (n = 210) 18 h post insemination. In Experiment 2, the influence of the centrifugation alone on the developmental potential of embryos was evaluated in rabbit oviducts for 120 h. The percentage of control and treated zygotes that developed to 1, 2 to 8, 8 to 32 and more than 32 cells were 7, 54, 10 and 10% vs 7, 40, 11 and 10%, respectively. In Experiment 3, the effect of pronuclear injection with plasmid containing CRF (corticotropin releasing factor) gene or pOCAT 330 Delta1 plasmids; 2 mug/ml in Tris 10 mM, EDTA 0.2 mM, 18 to 20 h post insemination was evaluated by in vivo development in the rabbit oviduct. The embryos submitted only to centrifugation and vortexing resulted in a morula-blastocyst (> 32 cells) rate of 25% (n = 226) compared with the injected zygotes of which only 5% (n = 206) achieved the same stage. We conclude that in vitro produced bovine zygotes have a reduced developmental potential following microinjection, and this effect is not due to the centrifugation process.     

Morphological events during in vitro fertilization of prepubertal goat oocytes matured in vitro

Experiments were carried out to study morphological changes temporally associated with in vitro fertilization (IVF) of prepubertal goat oocytes and to elucidate some of the abnormalities occurring during this process. The effects of different intervals of insemination on subsequent embryonic development were also studied. Prepubertal goat oocytes collected at slaughter were matured in TCM199 supplemented with estrous goat serum (20%), FSH (10 microg/ml), LH (10 microg/ml) and estradiol-17 beta (1 microg/ml) for 27 h at 38.5 degrees C. Matured oocytes were inseminated with freshly ejaculated spermatozoa following capacitation as described by Younis et al. (37) but with 100 microg/ml heparin. Representative oocytes were fixed every 2 to 4 h from 2 to 28 h after insemination for a study of sperm penetration, sperm head decondensation, meiotic activation, female chromosome decondensation, and male and female pronuclear formation. At the same intervals after insemination, some of the ova were co-cultured on granulosa cell monolayers for up to 9 d. Sperm penetration into the ooplasm was first observed at 4 h post insemination; decondensation of male and female chromatin and formation of male and female pronuclei occurred at 6 to 8 and 10 to 16 h after insemination, respectively. Highest proportions of oocytes were penetrated after exposure to spermatozoa for 8 h. There were no significant differences in ovum penetration after longer insemination intervals. Cleavage was first observed 24 h after insemination. Three types of abnormalities were observed. These were polyspermy, polygyny and asynchrony in the development of the female and male pronuclei, apparently due to a delay in the decondensation of the male pronucleus. Significantly higher proportions of oocytes cleaved (31.2 to 45.5%) after 20, 24 or 28 h insemination intervals than following shorter intervals of exposure to spermatozoa. However, the sperm exposure interval did not significantly affect subsequent embryonic development to the blastocyst stage. Embryos resulting from oocytes exposed to sperm cells for at least 12 h developed further than the 8-cell stage.     

Effects of oxygen toxicity on early development of mouse embryos.

To examine the effects of oxygen toxicity on embryonic development, mouse pronuclear embryos were cultured under low oxygen conditions with or without superoxide dismutase (SOD), and the blastulation rate was compared with that of embryos cultured under standard conditions. The blastulation rate of mouse pronuclear embryos cultured under standard conditions was only 1.5% (2/131). This rate was increased significantly, to 28.5% (43/151), when the embryos were cultured under low oxygen conditions; and to 31.0% (35/113) when SOD (500 micrograms/ml) was added to the medium under standard conditions; the rate was increased to 75.2% (115/153) when the embryos were cultured under low oxygen conditions in the presence of SOD. The minimum effective concentration of SOD in the culture medium was 50 micrograms/ml under conditions of 5% O2. The blastulation rate was significantly decreased after 1-hr exposure of pronuclear embryos to room atmospheric oxygen concentration (20% O2), and subsequent culture under 5% O2 with SOD did not result in an improved blastulation rate. Culture with SOD under 5% O2 promoted the development of two-cell stage embryos to the blastocyst stage. When two-cell stage embryos were collected 48 hr after hCG and cultured for 66 hr, their blastulation rate was similar to that of embryos collected from mice 114 hr after hCG. These results suggested that embryonic development in vitro is greatly affected by atmospheric oxygen throughout the early embryonic stages and that this harmful effect can be prevented by culturing embryos under low oxygen conditions and in the presence of SOD.     

Stimulation of the development of bovine embryos by insulin and insulin-like growth factor-I (IGF-I) is mediated through the IGF-I receptor

To study the effects of insulin and insulin-like growth factor-I (IGF-I) on the development of bovine embryos, fertilized bovine embryos in vitro were cultured in a chemically defined, protein-free medium: modified synthetic oviduct fluid (mSOF) supplemented with 1 mg/ml polyvinyl alcohol. Dose-response studies showed that insulin (0.5 to 10 microg/ml) and IGF-I (2 to 200 ng/ml) stimulated the development of bovine embryos to the morula stage 5 d after in vitro fertilization. The addition of 0.5 microg/ml insulin or 2 ng/ml IGF-I to the mSOF had beneficial effects on embryonic development to the morula stage in the presence of amino acids, but insulin and IGF-I did not affect the development of bovine embryos to the morula stage in the absence of amino acids. The antiIGF-I receptor antibody (alphaIR-3) completely blocked the stimulation of development to the morula stage by insulin and IGF-I. These findings suggest that the stimulation of embryonic development by insulin and IGF-I is mediated through the IGF-I receptor.     

Effects of microinjection-related treatments on the subsequent development of in vitro-produced bovine oocytes

The effects of gene injection-related handling on the subsequent development of in vitro-produced bovine oocytes were studied. In Experiment 1, centrifuged oocytes were stored in an injection chamber for 30 min on a warm (+39 degrees C) stage at 18, 22, 26 or 30 h post insemination. In Experiment 2, centrifuged oocytes were stored for 60, 90 or 120 min on a warm stage, while in Experiment 3 they were stored for 60 min on a warm or cool (+22 degrees C) stage. In Experiment 4, the centrifuged zygotes were injected with buffer either into the pronucleus or cytoplasm. Development to morulae and blastocysts at Day 7 was monitored. The results indicate that handling of oocytes either very early (18 h post insemination) or very late (30 h post insemination) significantly reduced development (P<0.05). The duration of the storage or the temperature during storage did not have any significant effect on the development of the embryos. Development (counted from the cleaved ova), however, was significantly lower (P<0.01) in pronucleus-injected than in cytoplasm-injected or control embryos (27.7, 45.5 and 44.0% morulae and blastocysts, respectively). The conclusion of this study is that the main reason for decreased development of pronucleus-injected, in vitro-produced bovine zygotes is the pronucleus-injection itself rather than injection-related handling or the overall damage caused by zygote piercing.     

Thioredoxin,an Anti-oxidant Protein,Protects Mouse Embryos from Oxidative Stress-induced Developmental Anomalies

During the early postimplantation period, rodent embryos survive in a relatively anaerobic environment in utero and are vulnerable to a high oxygen pressure. They become resistant to oxygen stress when they are exposed to a higher oxygen pressure after the uteroplacental circulation is established. However, it is unknown how embryos acquire such resistance against oxidative stress. This study was undertaken to examine whether an antioxidant protein thioredoxin (TRX) plays a significant role in the embryonic acquisition of the tolerance to oxidative stress. E7.5 embryos of C57BL/6 wild-type (WT) and human TRX (hTRX) inserted-transgenic (Tg) embryos were cultured under 10 or 25% O 2 and their growth and morphological differentiation were evaluated. The TRX expression and the products of oxidative stress (8-hydroxy-2'-deoxy-guanosine and carbonylated proteins) in their tissues were also examined. When WT embryos were cultivated in vitro under 25% O 2, their growth was significantly disturbed and various developmental abnormalities were induced, which did not occur in embryos grown under 10% O 2 . However, such embryotoxic effects of oxygen were significantly attenuated in the hTRX Tg embryos that continuously express hTRX. Accumulation of the products of oxidative stress was significantly reduced in hTRX Tg embryos as compared with that in WT embryos. The TRX transgene appears to provide the embryo with the resistance against oxidative stress and may play a crucial role in the redox regulation in embryos.     

Optimization of in vitro bovine embryo production: effect of duration of maturation,length of gamete co-incubation,sperm concentration and sire

The aim of these experiments was to investigate the effect of duration of IVM, duration of gamete co-incubation, and of sperm dose on the development of bovine embryos in vitro. In addition, the speed of sperm penetration of six bulls of known differing in vivo and in vitro fertility was examined. In Experiment 1, following IVM for 16, 20, 24, 28 or 32 h, cumulus oocyte complexes (COCs) were inseminated with 1 x 10(6) spermatozoa/ml. After 24 h co-incubation, presumptive zygotes were denuded and placed in droplets of synthetic oviduct fluid (SOF). In Experiment 2, following IVM and IVF, presumptive zygotes were removed from fertilization wells at 1, 5, 10, 15 or 20 h post insemination and placed in culture as described above. In Experiment 3, following IVM, COCs were inseminated with sperm doses ranging from 0.01 x 10(6) to 1 x 10(6) spermatozoa/ml. Following co-incubation for 24 h, presumptive zygotes were placed in culture as described above. In Experiment 4, following IVM, oocytes were inseminated with sperm from six bulls of known differing field fertility. To assess the rate of sperm penetration, oocytes were subsequently fixed every 3 h (up to 18 h) following IVF. Based on the results of Experiment 4, in Experiment 5, following IVM for 12, 18 or 24 h, COCs were inseminated with sperm from two sires with markedly different penetration speeds. After 24 h co-incubation, presumptive zygotes were denuded and placed in culture. The main findings from this study are that (1) the optimal duration of maturation of bovine oocytes in vitro to maximize blastocyst yield is 24 h, (2) sperm-oocyte co-incubation for 10 h is sufficient to ensure maximal blastocyst yields, (3) sperm concentrations of 0.25 x 10(6) and 0.5 x 10(6) spermatozoa/ml yielded significantly more blastocysts than any other concentration within the range of 0.01 x 10(6) 1 x 10(6) spermatozoa/ml, (4) there are marked differences in the kinetics of sperm penetration between sires and this may be a useful predictor of field fertility, and (5) the inferior development associated with slower penetration rates may in part be overcome by carrying out IVF at a time when the actual penetration is most likely to coincide with the completion of maturation.     

Effects of co-culture and embryo number on the in vitro development of bovine embryos

It is generally accepted that culturing embryos in groups or with somatic cells improves both the yield and quality of the blastocysts obtained. The aims of this study were 1) to compare the yield and quality of the embryos obtained after culture in several number conditions and in several culture systems and 2) to assess the effect of co-culture started at various stages of embryo development. Under cell-free culture conditions (modified synthetic oviduct fluid [mSOF] supplemented with 10% fetal calf serum [FCS] 48 h post insemination, the rate of Day 10 blastocysts was lower when embryos were cultured in small groups (1 to 6 per drop) than in large groups (4 versus 23% ; P < 0.01). There was no group effect when embryos were co-cultured either with Buffalo rat liver (BRL) cells in TCM 199, or in a culture system allowing the progressive development of cumulus cells in mSOF, even if co-culture started at 66 or 114 h post insemination. However, embryos cultured singly had lower cell numbers than embryos cultured in large groups when co-culture started at 114 h post insemination. This suggests that 1) somatic cells improve the development of singly cultured bovine embryos up to the blastocyst stage after the 9-16 cell stage; 2) co-culture affects blastocyst cell number of singly cultured embryos by acting roughly between the 5-8 and the 9-16 cell stage; and 3) cooperation between embryos could replace the effect of co-culture either on the yield of blastocysts or on blastocyst cell number. Blastocysts appeared significantly earlier in co-culture with cumulus cells in mSOF than in co-culture with BRL cells in TCM 199 (detection of the blastocysts: 7.3 +/- 0.1 d post insemination with cumulus cells versus 8.1 +/- 0.1 d with BRL cells; P < 0.001) and had a significant higher number of cells (143 +/- 9 versus 85 +/- 11; P < 0.001). This system thus seems suitable for the culture of small numbers of embryos resulting from in vitro maturation and fertilization of oocytes from individual donor cows.     

Effects of the 7 21 Robertsonian translocation on fertilization rates and preimplantation development of bovine oocytes in vitro

A study was conducted to investigate the effect of the 7/21 Robertsonian translocation on fertilization and subsequent development of bovine oocytes matured in vitro. Semen from Japanese Black bulls, 2 with a normal karyotype (Bulls A and B) and 2 that were heterozygous for the 7/21 translocation (Bulls C and D), was used in this study. In vitro matured bovine oocytes were inseminated with frozen-thawed sperm capacitated with heparin. After insemination, oocytes were cultured at 38.5 degrees C on a monolayer of cumulus cells in TCM-199 supplemented with 5% superovulated cow serum and 0.5 mM sodium pyruvate in an atmosphere of 2% CO2 in air. Cleavage rate was evaluated at 54 h after insemination, and development of embryos to the blastocyst stage was observed 7 to 10 d post insemination. There was no difference in the fertilization rate among the 4 bulls. Although the cleavage rate of oocytes inseminated with semen from Bull C (heterozygote) was lower (P < 0.05) than that obtained with semen from Bull B (normal), the blastocyst formation rate did not differ among the 4 bulls. These results indicate that the 7/21 Robertsonian translocation had no effect on the fertilization and blastocyst formation rates of bovine in vitro-matured oocytes.     

Compaction rate of in vitro fertilized bovine embryos related to the interval from insemination to first cleavage

A study was conduced on early cleavage divisions and timing of compaction in bovine preimplantation-stage embryos. Zygotes were produced using conventional in vitro maturation and fertilization procedures. Twenty hours post insemination, the zygotes were denuded and cultured with oviduct epithelial cells in B2 medium + 10% estrous cow serum. Starting at 24 hours post insemination, the embryos (n=657) were evaluated every 6 hours and then were put into different co-culture drops according to their cell number. Starting from 78 hours post insemination, the cleavage rate was evaluated every 12 hours. Embryos were stained with Hoechst 33342 at the compacted morula stage or when they were degenerated, at 162 hours post insemination. Developmentally capable embryos were characterized by a rapid cleavage rate in the first 3 cell cycles and by an extended 8- to 16-cell stage. Peak concentrations of 2-, 4-, 8- and 16-cell stages emerged at 36, 42, 60 and 102 hours post insemination, respectively. Compaction did not occur until 126 hours post insemination. The rate of compaction was significantly higher in embryos that were at the 2-cell stage before or at 36 hours post insemination (P < 0.05). The mean cell numbers of compacted morulae that were identified at 126 and 138 hours post insemination were 30.9 +/- 6.8 and 31.6 +/- 7.7, respectively. These results indicate that developmentally capable bovine embryos reach the 2-cell stage at 36 hours post insemination, and that they become compacted at the 32-cell stage, which usually occurs between 126 and 138 hours post insemination.     

Cryopreservation of unfertilized rat oocytes by ultrarapid freezing]

Unfertilized rat oocytes were placed in a highly concentrated solution of cryoprotectant (DAP 224:2M dimethylsulphoxide, 2M acetamide, 4M propylene glycol in PB1) in 0.5 ml sampling tubes and then immediately immersed into liquid nitrogen; thawing was conducted in a 37 degrees C waterbath. After thawing, 630 out of 968 oocytes (65.1%) were morphologically normal. After insemination in vitro of cryopreserved oocytes, the proportion of pronuclear oocytes with spermatail (s), male (s) and female pronuclei (8-10 h post insemination), and 2-cell embryos with two identical blastomeres (28-30 h post insemination) was 60.8% (152/250) and 29.8% (39/131), respectively. One hundred and fifty oocytes that were judged as pronuclear oocytes under the inverted microscope 8-10 h after insemination were transferred to the oviducts of pseudopregnant recipients; 18.7% (28/150) of the oocytes developed to normal young.     

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.     

Effect of incubation temperature on in vitro maturation of porcine oocytes: nuclear maturation, fertilisation and developmental competence.

The present study examined the effect of low culture temperature during in vitro maturation (IVM) of pig oocytes on their nuclear maturation, fertilisation and subsequent embryo development. In experiment 1, oocytes were cultured at 35 or 39 degrees C for 44 h in modified tissue culture medium 199 supplemented with 10 ng/ml epidermal growth factor, 0.57 mM cysteine, 75 microg/ml potassium penicillin G, 50 microg/ml streptomycin sulphate, 0.5 microg/ml LH and 0.5 microg/ml FSH to examine the nuclear maturation status. In experiment 2, oocytes were cultured at 35 degrees C for 44 or 68 h and nuclear maturation was examined. In experiment 3, oocytes matured for 44 or 68 h at 39 degrees C and for 68 h at 35 degrees C were co-incubated with frozen-thawed spermatozoa for 5-6 h. Putative embryos were transferred into North Carolina State University (NCSU) 23 medium containing 0.4% bovine serum albumin. At 12 h after insemination, some oocytes were fixed to examine the fertilisation rate and the remaining embryos were examined at 48 and 144 h for cleavage and blastocyst formation rate, respectively. Compared with 39 degrees C, culture of oocytes at 35 degrees C for 44 h significantly (p < 0.05) reduced the metaphase II (M II) rate (79% vs 12%). However, extension of culture time to 68 h at 35 degrees C significantly increased (p < 0.05) the M II rate (7% vs 58%). In experiment 3, compared with other groups, fewer (p < 0.05) oocytes reached M II when cultured at 35 degrees C for 68 h (69-81% vs 49%). Extension of culture duration to 68 h at 39 degrees C stimulated spontaneous activation (28%) of oocytes. No difference in cleavage rates was observed among different groups. Compared with oocytes matured for 44 h at 39 degrees C (31%), the proportion of blastocysts obtained was low (p < 0.05) for oocytes matured at 35 degrees C (13%) or 39 degrees C (3%) for 68 h. The results indicate that lower culture temperature can delay nuclear maturation of pig oocytes. However, extension of culture time can stimulate nuclear maturation and these oocytes are capable of fertilisation and development to the blastocyst stage at moderate rates.     

Thioredoxin induction of peripheral blood mononuclear cells in mice in response to a single bout of swimming exercise

Thioredoxin (TRX) is a stress-inducible protein with diverse intracellular functions, which is expressed under conditions of oxidative stress. Exercise is known to cause oxidative stress by the generation of oxygen radicals from various biological pathways. The purpose of this study was to determine the level of TRX induction of cellular extracts prepared from peripheral blood mononuclear cells after a 30-min swimming exercise in mice. Plasma corticosterone concentration, considered to be a marker for exercise-induced various stress, rose significantly (p < 0.05) 0.5 h after exercise and rapidly dropped down following recovery. The carbonyl proteins as a marker of oxidative stress were significantly (p < 0.05) higher after 6 and 12 h of recovery in cytosolic extracts. The cytoplasm and nucleus TRX expressions were slightly higher to resting values after 12 and 24 h of recovery. The nucleus TRX expression was significantly (p < 0.05) higher after 24 h of recovery. These findings demonstrate that exercise-induced oxidative stress may be associated with increased intracellular TRX expression after 12 and/or 24 h after exercise in peripheral blood mononuclear cells. It is implied that this delayed and prolonged over-expression of TRX may play some roles in response to exercise-induced oxidative stress.