Tatsuyuki Suzuki

Bovine oocyte diameter in relation to developmental competence

This study was conducted to determine the diameter of bovine oocytes that were able to attain their full developmental competence to blastocysts. Oocytes were recovered by aspiration of surface-visible follicles (1 to 7 mm in diameter) from slaughterhouse ovaries. Only healthy-looking cumulus-oocyte complexes were used for in vitro maturation, and they were divided into six groups based on diameter: < 110 microm, 110 to < 115 microm, 115 to < 120 microm, 120 to < 125 microm, 125 to < 130 microm and >/= 130 microm. Oocytes were processed through standard procedures for in vitro maturation, fertilization and culture. Following in vitro maturation or fertilization, some oocytes were stained to assess nuclear maturation and penetration rates. The numbers of embryos that cleaved at 42 h post insemination and developed to blastocysts and hatched blastocysts after 8 days of culture were recorded. The mean oocyte diameters were 114.0 +/- 4.8 microm. The oocytes displayed size-related ability to undergo meiotic maturation. The rates of nuclear maturation of oocytes in the greater than 115-microm size range were significantly higher than those of oocytes with diameters < 115 microm. In the < 120 microm diameter groups, the polyspermic fertilization rates of oocytes < 115 microm were significantly higher than those of oocytes 115 to < 120 microm in diameter. The rates of cleavage and development to blastocysts and hatched blastocysts rose as oocyte diameter increased. Among oocytes with a diameter >110 microm, oocytes < 120 microm were found to have significantly lower developmental competence than oocytes 120 to < 130 microm in diameter. These results suggest that bovine oocytes have acquired full meiotic competence at a diameter of 115 microm but not yet attained full developmental competence to blastocysts, and that oocytes have acquired full developmental competence at a diameter of 120 microm.

Canine oocyte diameter in relation to meiotic competence and sperm penetration

This study was conducted to determine the diameter of canine oocytes that are able to attain full meiotic competence and sperm penetration. Oocytes were collected from ovaries of bitches at various stages of the estrous cycle. Only healthy-looking cumulus-oocyte complexes were used for in vitro maturation, and were divided into four groups based on diameter: <100, 100 to <110, 110 to <120 and >120 microm. Following in vitro maturation or fertilization, oocytes were stained to assess nuclear maturation and penetration rates. The mean oocyte diameter was 108.5 +/- 0.4 microm. The oocytes displayed size-related ability to undergo meiotic maturation. After culture for 72 h, the rates of oocytes that remained at the germinal vesicle stage in the <110 microm groups were significantly higher (P<0.01) than in the > or = 110 microm groups. None of the oocytes <110 microm reached metaphase II (MU), but 4.9 and 21.5% of the oocytes that were greater than 110 and 120 microm, respectively, progressed to MII. After in vitro fertilization for 20 h, 10 to 25% of oocytes were penetrated by spermatozoa, but there were no clear relationships between oocyte diameter and penetration rates of the oocyte by sperm. In the <120 microm groups, sperm penetration was mostly found in oocytes arrested at the germinal vesicle stage. However, a total of eight oocytes > or = 120 microm in diameter were penetrated by spermatozoa, of which five oocytes reached MII. These results suggest that there is a clear relationship between oocyte diameter and meiotic competence, but no relationship between oocyte diameter and sperm penetration. Canine oocytes may have acquired meiotic competence once they reach at a diameter of 120 microm, but the oocytes may allow the entry of spermatozoa into the ooplasm irrespective of oocyte diameter.

Size distribution and meiotic competence of oocytes obtained from bitch ovaries at various stages of the oestrous cycle.

The present study was conducted to examine the effects of the stage of the oestrous cycle on the meiotic competence of canine oocytes and also to investigate the relationship between the stage of the oestrous cycle and the relative size distribution of oocytes obtained from bitches at three stages of the cycle (anoestrus, follicular phase and dioestrus). Only healthy-looking cumulus-oocyte complexes were used for in vitro maturation and these were divided into three groups based on diameter (< 110, 110 to < 120 and > or = 120 microm). The mean diameter of oocytes from ovaries at anoestrus, the follicular phase and dioestrus was 103.6, 119.2 and 107.7 microm, respectively. The percentage of large oocytes (> or = 120 microm) collected at the follicular phase was higher (P<0.01) than that collected at dioestrus and the percentage of oocytes > or = 120 microm collected from ovaries at dioestrus was higher (P<0.01) than that collected at anoestrus. After culture for 72 h, significantly more oocytes reached metaphase II (MII) in the follicular phase than in the other stages (P<0.01), and more oocytes reached MII in dioestrus than in anoestrus (P<0.05). In the > or = 120 microm group, the frequency of oocytes that resumed meiosis in the follicular phase was higher (P<0.05) than in the other stages. However, in the smaller diameter (< 120 microm) groups, there were no significant differences between ovaries at different stages of the oestrous cycle with respect to the proportion of oocytes reaching each stage of meiosis. Thus, the oestrous cycle stage influences maturation frequency. Moreover, oocytes demonstrated a size-related ability to undergo meiotic maturation, irrespective of the stage of the oestrous cycle. These results suggest that the effects of the stage of the oestrous cycle may result from differences in the distribution of large oocytes.

In vitro maturation, fertilization and development of domestic cat oocytes recovered from ovaries collected at three stages of the reproductive cycle.

This study was conducted to examine the effect of the donor cats reproductive cycle stage on in vitro maturation (IVM), in vitro fertilization (IVF), and in vitro development of oocytes recovered from ovaries that were collected and stored at 35 degrees C for a short period (1-6 h). Based on the presence or absence of follicles and corpora lutea, the ovarian pairs collected were classified into inactive, follicular, or luteal stages. Nuclear status of 161 cumulus-oocyte complexes (COCs) were examined immediately after recovery; 91.3% of the oocytes were found to be at the immature germinal vesicle (GV) stage, and 3.7% of the oocytes were at metaphase II (MII) stage. The percentage of the oocytes at the GV stage was significantly lower in the follicular stage than in the inactive stage (P < 0.01). Of the oocytes from the follicular stage, 9.1% were at MII stage. After culture for 24 h, however, the proportions of oocytes that reached metaphase I and MII were not different among the reproductive cycle stages of the ovaries collected (P > 0.05). After co-incubation with sperm, 63.1% of oocytes were fertilized, but there were no significant differences among the reproductive cycle stages of the ovaries with respect to the proportions of normal and polyspermic fertilization. However, the number of oocytes reaching cleavage stage and development to the morula and blastocyst stages from follicular stage ovaries were significantly lower (P < 0.05) than those obtained from inactive and luteal stage ovaries. These results indicate that the reproductive cycle stage of donor cat ovaries, stored at 35 degrees C, has no apparent effects on the frequencies of maturation and fertilization of oocytes, but influences developmental competence of the oocytes following IVM or IVF.

Growth factors and growth hormone enhance in vitro embryo production and post-thaw survival of vitrified bovine blastocysts

The objective of this study was to assess the influence of specific growth factors and growth hormone (GH) in the culture medium on in vitro embryo production and post-thaw survival of vitrified blastocysts. In total, 1673 bovine oocytes were used for evaluating the nuclear status of the oocytes after in vitro maturation (n=560) or for in vitro fertilization (IVF, n=1113) and distributed in five treatment groups: (1). medium only control; (2). activin (10 ng/ml); (3). epidermal growth factor (EGF) (10 ng/ml); (4). insulin 5 microg/ml and (5). GH (100 ng/ml). There was an increase (P<0.05 and P<0.01, respectively) in the percentage of oocytes that reached meta phase II, developed to blastocysts and hatched, as well as in the blastocyst cell number in the groups treated with activin, EGF and GH compared to controls. There was no significant difference between insulin and control groups. A total of 465 blastocysts were vitrified in a three-step protocol using ethylene glycol and polyvinylpyrrolidone. After thawing, embryos were cultured in five treatments groups as described above. Groups EGF and GH had higher (P<0.05) survival rates with a mean blastocyst survival of 95.0+/-1.5 and 93.1+/-3.5%, respectively, while mean hatching rate was higher for EGF and activin groups (75.3+/-3.4 and 62.0+/-3.2%, respectively). Thawed control blastocysts had a mean cell count of 52.7+/-3.3%. With the exception of insulin, all growth factors and GH tested showed higher (P<0.01) total cell numbers when compared to controls. In conclusion, addition of growth factors and GH in the culture media has favorable effects on in vitro maturation, in vitro embryo production, and post-thaw survival of vitrified blastocysts.

Viability of bovine blastocysts obtained after 7, 8 or 9 days of culture in vitro following vitrification and one-step rehydration.

This study examined morphological appearance, viability and hatching rates in relation to the total cell number following vitrification of in vitro produced bovine blastocysts and expanded blastocysts. In Experiment 1, embryos obtained after 7, 8 or 9 d of culture were pooled and equilibrated in either 10% ethylene glycol (EG) or 10% EG plus 0.3M trehalose in Dulbeccos phosphate buffered saline (DPBS) supplemented with 10% calf serum and 0.6% BSA for 5 min each, at room temperature, and then vitrified together in precooled vitrification solutions consisting of 40% EG (Treatment 1), 40% EG plus 0.3M trehalose (Treatment 2), 40% EG plus 0.3M trehalose and 20% polyvinylpyrrolidone (PVP, Treatment 3) in DPBS. The embryo viability and hatching rates of Treatment 1 (19 and 3%) differed significantly (P < 0.05) from those of Treatment 2 (56 and 31%) and Treatment 3 (70 and 43%). There was a significant difference (P < 0.05) in embryo viability between Treatment 2 (31%) and Treatment 3 (43%). In Experiment 2, Day 7, 8 and 9 embryos were vitrified separately, with higher viability and hatching rates in Experiment 1 than in Experiment 2. The viabilities of Day 7 (87%), 8 (71%) and 9 (46%) embryos differed significantly (P < 0.05). Again, there were significant differences (P < 0.01) among the hatching rates of Day 7 (75%), 8 (38%) and 9 (9%) embryos. The total cell number of hatched blastocysts was then determined by differential fluorochrome staining. The total cell number of Day 7, 8 and 9 embryos differed significantly (P < 0.05).

EFFECTS OF DIFFERENT LOTS OF SEMEN FROM THE SAME BULL ON IN VITRO DEVELOPMENT OF BOVINE OOCYTES FERTILIZED IN VITRO

The effectiveness of 8 different lots of semen from the same bull on the in vitro development of bovine oocytes fertilized in vitro was evaluated. Cleavage and development rates to the blastocyst stage were not significantly different among the 8 lots of semen. However, the cleavage and development rates varied no more than +/-11 and +/-6%, respectively, in overall rates. A maximum of 35.2 and 27.9% difference in cleavage and development rates to the blastocyst stage, respectively, was observed using a single straw from the same semen lot for insemination in 4 trials. This variation tended to be higher than that observed for the cleavage and development rates of oocytes after insemination with double straws from a single lot. These results indicate that the developmental capacity of embryos after insemination are affected by factors associated with a different semen lot from the same bull and with different straws from a single lot.

Offspring born from chimeras reconstructed from parthenogenetic and in vitro fertilized bovine embryos

Chimeric embryos were produced by aggregation of parthenogenetic (Japanese Red breed) and in vitro fertilized (Holstein breed) bovine embryos at the Yamaguchi Research Station in Japan and by aggregation of parthenogenetic (Red Angus breed) and in vitro fertilized (Holstein breed) embryos at the St. Gabriel Research Station in Louisiana. After embryo reconstruction, live offspring were produced at each station from transplanting these embryos. The objective of this joint study was to evaluate the developmental capacity of reconstructed parthenogenetic and in vitro fertilized bovine embryos. In experiment I, chimeric embryos were constructed: by aggregation of four 8‐cell (demi‐embryo) parthenogenetic and four 8‐cell stage (demi‐embryo) IVF‐derived blastomeres (method 1) and by aggregation of a whole parthenogenetic embryo (8‐cell stage) and a whole IVF‐derived embryo (8‐cell stage) (method 2). Similarly in experiment II, chimeric embryos were constructed by aggregating IVF‐derived blastomeres with parthenogenetic blsatomeres. In this experiment, three categories of chimeric embryos with different parthenogenetic IVF‐derived blastomere ratios (2:6; 4:4, and 6:2) were constructed from 8‐cell stage bovine embryos. In experiment III, chimeric embryos composed of four 8‐cell parthenogenetic and two 4‐cell IVF‐derived blastomeres or eight 16‐cell parthenogenetic and four 8‐cell IVF‐derived blastomeres were constructed. Parthenogenetic demi‐embryos were aggregated with sexed (male) IVF demi‐embryos to produce chimeric blastocysts (experiment IV). In the blastocyst stage, hatching and hatched embryos were karyotyped. In experiment V, chimeric embryos that developed to blastocysts (zona‐free) were cryopreserved in ethylene glycol (EG) plus trehalose (T) with different concentrations of polyvinylpyrrolidone (PVP; 5%, 7.5%, and 10%). In experiment I, the aggregation rate of the reconstructed demi‐embryos cultured in vitro without agar embedding was significantly lower than with agar embedding (53% for 0% agar, 93% for 1% agar, and 95% for 1.2% agar, respectively). The aggregation was also lower when the aggregation resulted from a whole parthenogenetic and IVF‐derived embryos cultured without agar than when cultured with agar (70% for 0% agar, 94% for 1% agar, and 93% for 1.2% agar, respectively). The development rate to blastocysts, however, was not different among the treatments. In experiment II, the developmental rates to the morula and blastocyst stages were 81%, 89%, and 28% for the chimeric embryos with parthenogenetic:IVF blastomere ratios of 2:6, 4:4, and 6:2, respectively. In experiment III, the developmental rate to the morula and blastocyst stages was 60% and 65% for the two 4‐cell and four 8‐cell chimeric embryos compared with 10% for intact 8‐cell parthenogenetic embryos and 15% for intact 16‐cell parthenogenetic embryos. To verify participation of parthenogenetic and the cells derived from the male IVF embryos in blastocyst formation, 51 embryos (hatching and hatched) were karyotyped, resulting in 27 embryos having both XX and XY chromosome plates in the same sample, 14 embryos with XY and 10 embryos with XX. The viability and the percentage of zona‐free chimeric embryos at 24 hr following cryopreservation in EG plus T with 10% PVP were significantly greater than those cryopreserved without PVP (89% vs. 56%). Pregnancies were diagnosed in both stations after the transfer of chimeric blastocysts. Twin male (stillbirths) and single chimeric calves were delivered at the Yamaguchi station, with each having both XX and XY chromosomes detected. Three pregnancies resulted from the transferred 40 chimeric embryos at the Louisiana station. Two pregnancies were lost prior to 4 months and one phenotypically‐ chimeric viable male calf was born. We conclude that the IVF‐derived blastomeres were able to stimulate the development of bovine parthenogenetic blastomeres and that the chimeric parthenogenetic bovine embryos were developmentally competent. Mol. Reprod. Dev. 53:159–170, 1999.

Effect of sucrose concentration used for one-step dilution upon in vitro and in vivo survival of bovine embryos refrigerated in glycerol and 1, 2-propanediol

Abstract Bovine embryos collected on Day 7 of pregnancy were suspended in 1.4 M glycerol or 1.6 M 1, 2-propanediol solution. Embryos were loaded into 0.25-ml plastic straws in phosphate buffered saline (PBS) containing 0, 0.2, 0.4 or 0.8 M sucrose. The straws were placed directly into a cooling chamber and cooled from 0°C to −6°C at 1°C/min and then seeded at −6°C and cooled at a rate of 0.3°C/min to −30°C. The straws were then plunged and stored in liquid nitrogen. Embryos frozen in each cryoprotectant were thawed by placing the straws into a 30°C water bath. The embryos were cultured in small dishes in Hams F-10 medium supplemented with 10% fetal calf serum (FCS). When the embryos were frozen in 0.0, 0.2, 0.4 or 0.8 M sucrose, respectively, in Hams F-10 the survival rates after culture were 0, 21, 82 or 88%, respectively, in 1.4 M glycerol and 88, 89, 84 or 72%, respectively, in 1.6 M 1, 2-propanediol. Embryos suspended in both cryoprotectants were cooled with 0.2 M sucrose in PBS, and the nonsurgical transfers were performed without removing the cryoprotectant. A pregnancy rate of 61% was obtained when embryos were suspended in 1.6 M 1, 2-propanediol and cooled with 0.2 M sucrose in PBS. However embryos suspended in 1.4 M glycerol and subjected to the same cooling regimen had a lower (P

Relationship between dead cells and DNA fragmentation in bovine embryos produced in vitro and stored at 4°C

DNA fragmentation and its relationship with dead cells were examined in bovine blastocysts produced in vitro and stored at 4°C for 1–5 days. Survival and development to the hatching and hatched blastocyst stage decreased with increasing storage time. Both were significantly lower at 72 hr than at 48 hr. None of the embryos stored for 120 hr developed to the hatching or hatched blastocyst stage. The proportion of dead cells per embryo increased progressively as the time of storage increased, until 69% of embryonic cells were dead after 120 hr of storage. There was no significant difference between the proportions of DNA fragmentation per embryo stored for 0 and 24 hr (12% vs 16%). However, the proportion of DNA fragmentation in embryos stored for longer than 48 hr was significantly greater than that in embryos stored for less than 24 hr. There were no significant differences among those stored for longer than 48 hr (28–33%). These results suggest that the reduced developmental competence of bovine embryos stored at 4°C is characterized by necrotic change rather than apoptotic change. Mol. Reprod. Dev. 54:342–347, 1999.