In vitro culture of sheep oocytes matured and fertilized in vitro

Sheep oocytes that matured and fertilized in vitro were cultured to evaluate their cleavage to the 8- to 16- cell stage and further development in five different media as follows: 1) CPMW (TCM199 + 20% ewe serum + 0.4% BSA), 2) Ham's F-10 + 10% ewe serum, 3) Brinster's pyruvate medium + 0.1% glucose (BPM-G), 4) co-culture with sheep oviduct epithelial cells in TCM199 + 10% fetal calf serum, and 5) co-culture with sheep granulosa cells in the same medium as 4. The culture duration was 4 or 7 d for 8- to 16-cell or further development. The proportions of 8- to 16-cell eggs were 1) 16% (8 49 ), 2) 25% (12 49 ), 3) 52% (58 112 ), 4) 63% (105 167 ) and 5) 45% (27 60 ). The co-culture with sheep oviduct cells resulted in a significantly (P < 0.05) higher rate of cleavage than the other media, except BPM-G. The proportion of noncompacted morula (35%, 24 68 ) was also significantly (P < 0.05) higher in the co-culture of sheep oviduct cells than the other media. The 8- to 16-cell eggs produced by BPM-G (n=38) and the co-culture with sheep oviduct cells (n=42) were transferred into the uterus of recipient ewes, but no elongated blastocysts were obtained 13 d later. On the other hand, 8 out of 55 one-cell eggs (15 to 18 h after in vitro insemination) transferred to the oviduct of recipient ewes were elongated blastocysts (24% of 34 recovered eggs). The data show that the co-culture of in vitro fertilized eggs with sheep oviduct epithelial cells could support development of 8- to 16-cell embryos or early morula, but their viability is still questionable.     

Survival of frozen-thawed sheep embryos cryopreserved at cleavage stages

This study evaluated the effect of freezing-thawing procedures on the viability of sheep embryos cryopreserved at various developmental stages. The survival rates of frozen-thawed embryos were compared with non-frozen counterparts. Embryos were recovered from the oviduct and uterus, at different days of the early luteal phase, and were classified at six different developmental stages: 2- to 4-cell (n = 72), 5- to 8-cell (n = 73), 9- to 12-cell (n = 70), early morulae (n = 42), morulae (n = 41), and blastocyst (n = 70). For each early cleavage stage and blastocysts, approximately half of the embryos, were frozen immediately by slow freezing with an ethylene glycol-based solution. The remaining embryos were cultured to the hatched blastocyst stage. All morulae and compact morulae were frozen after recovery with the same protocol. Cryoprotectants were removed using 1M sucrose solution, and then warmed the embryos were cultured to the hatched stage in a standardized in vitro culture. Embryo developmental stage had a significant effect on the ability to hatch following freezing (P<0.0001). The cryotolerance of the embryos fitted a regression (r2 = 0.908), increasing linearly from 2- to 4-cell embryos (17.1%) to morula stage (46.3%) and in a quadratic regression from the morula to the blastocyst stage (83.7%). Frozen early cleavage stage embryos had a significantly lower viability than their fresh counterparts (23.1 vs 83.1%; P<0.0001), with a similar rate of viability between fresh or frozen blastocysts (92.5 vs 83.7%). In conclusion, early sheep embryos are very sensitive to freezing per se and the survival rates following conventional freezing improve as embryo developmental stage progresses.     

In vivo culture of embryos in the immature mouse oviduct

In-vitro culture of mammalian preimplantation embryos is associated with subsequent decreased viability. This phenomenon is more pronounced with the domestic species embryos as culture conditions are at present unable to sustain cleavage of early preimplantation embryos for more than one or two cell divisions. In this study, the immature mouse oviduct is shown to be capable of supporting cleavage and morphological development of rabbit and porcine embryos. The immature mouse oviduct was shown to be comparable to in vitro culture as 76% and 60% of the transferred zygotes developed to the morula stage after 2 and 3 d respectively. The porcine zygotes, however, failed to develop beyond the 4-cell stage in either the immature mouse oviduct or in vitro. Porcine morula showed better tolerance of the oviduct environment and when recovered after 2 d contained an average of 64 cells, which was significantly more than in in vitro cultured morulae (40 cells). Early porcine blastocysts transferred to the mouse oviduct had over a two-fold increase in cell division (104 cells) over comparable blastocysts grown in vitro (57 cells). The immature mouse oviduct is, therefore, a potential surrogate environment for short-term storage of embryos of other species.     

Co-culture of early cattle embryos to the blastocyst stage with oviducal tissue or in conditioned medium

In Exp. 1, 5-8-cell embryos from superovulated cattle were co-cultured with oviducal tissue suspended in Ham's F10 + 10% fetal calf serum (F10FCS) or in F10FCS alone. After 4 days, the proportion of embryos developing into compact morulae or blastocysts was greater (P less than 0.005) in co-culture (38/82; 46%) than in F10FCS (1/27; 4%). In Exp. 2, a solution of collagenase, trypsin, DNAse and EDTA was used to disperse oviducal tissue, which was then cultured in TCM199 + 10% fetal calf serum (M199FCS) to obtain monolayers. Embryos (1-8 cells) were then co-cultured with monolayers or in M199FCS alone. The proportion of embryos developing into compact morulae and blastocysts after 4-5 days was higher (P less than 0.005) in co-culture (15/34; 43%) than in M199FCS (1/37; 3%); mean numbers of cells/embryo were also higher (P less than 0.001) (27.70; range 2-82 in co-culture; 8.83; range 2-18 in M199FCS). In Exp. 3, embryos obtained from in-vitro maturation and fertilization were used to compare development between co-culture and medium conditioned by oviducal tissue. Initial cleavage rate (no. embryos greater than 1 cell/total) was 76% (611/807) and did not differ among treatments. After 5 days, the proportion cleaving to greater than 16 cells was higher (P less than 0.005) in co-culture (71/203; 35%) and conditioned medium (48/205; 23%) compared to M199FCS (14/203; 7%). Similarly, the proportion developing into compact morulae and blastocysts was greater (P less than 0.005) in co-culture (44/203; 22%) and conditioned medium (46/205; 22%) than in M199FCS (7/203; 3%).(ABSTRACT TRUNCATED AT 250 WORDS)     

Developmental ability of bovine embryos after nuclear transfer based on the nuclear source: in vivo versus in vitro

Bovine nuclear transfer embryos reconsitituted from in vitro-matured recipient oocyte cytoplasm and different sources of donor nuclei (in vivo, in vitro-produced or frozen-thawed) were evaluated for their ability to develop in vitro. Their cleavage rate and blastocyst formation are compared with those of control IVF embryos derived from the same batches of in vitro-matured oocytes that were used for nuclear transfer and were co-cultured under the same conditions on bovine oviducal epithelial cell monolayers for 7 d. Using fresh donor morulae as the source of nuclei resulted in 30.2% blastocyst formation (150 497 ), which was similar to that of control IVM-IVF embryos (33.8% blastocysts, 222 657 ). When IVF embryos were used as the source of nuclei for cloning, a slightly lower blastocyst formation rate (22.6%, 41 181 ) was obtained but not significantly different from that using fresh donor morulae. Nuclear transfer embryos derived from vitrified donor embryos showed poor development in vitro (7.1%, 11 154 ). No difference in morphology or cell number was observed after 7 d of co-culture between blastocysts derived from nuclear transfer or control IVF embryos. The viability of 34 in vitro-developed nuclear transfer blastocysts was tested in vivo and resulted in the birth of 11 live calves (32.3%).     

Survival of equine embryos co-cultured with equine oviductal epithelium from the four- to eight-cell to the blastocyst stage after transfer to synchronous recipient mares

In this study we examined the ability of equine oviductal epithelial cells (OEC) to support the development of four- to eight-cell equine embryos in vitro and investigated the ability of co-cultured embryos to continue normal development after transfer to synchronous recipient mares. Equine embryos obtained at Day 2 after ovulation were cultured with or without OEC for 5 days. Those OEC co-cultured embryos that reached the blastocyst stage and embryos recovered from the uterus at Day 7 were surgically transferred to synchronous recipient mares. Co-culture with OEC improved (P < 0.01) development of four- to eight-cell embryos to blastocysts compared to medium alone (11/15 vs 0/6) during 5 days in vitro. Embryos co-cultured with OEC were smaller (P < 0.05) and more delayed in development than Day-7 uterine blastocysts. There was no difference in the Day-30 survival rate of co-cultured blastocysts (3/8) or Day-7 uterine blastocysts (5/8) after transfer to recipient mares. These results indicate that co-culture with OEC can support development of four- to eight-cell equine embryos in vitro and that co-cultured embryos can continue normal development after transfer to recipient mares.     

Generation of cloned and chimeric embryos/offspring using the new methods of animal biotechnology

The article summarizes results of studies concerning: 1/ qualitative evaluation of pig nuclear donor cells to somatic cell cloning, 2/ developmental potency of sheep somatic cells to create chimera, 3/ efficient production of chicken chimera. The quality of nuclear donor cells is one of the most important factors to determine the efficiency of somatic cell cloning. Morphological criteria commonly used for qualitative evaluation of somatic cells may be insufficient for practical application in the cloning. Therefore, different types of somatic cells being the source of genomic DNA in the cloning procedure were analyzed on apoptosis with the use of live-DNA or plasma membrane fluorescent markers. It has been found that morphological criteria are a sufficient selection factor for qualitative evaluation of nuclear donor cells to somatic cell cloning. Developmental potencies of sheep somatic cells in embryos and chimeric animals were studied using blastocyst complementation test. Fetal fibroblasts stained with vital fluorescent dye and microsurgically placed in morulae or blastocysts were later identified in embryos cultured in vitro. Transfer of Polish merino blastocysts harbouring Heatherhead fibroblasts to recipient ewes brought about normal births at term. Newly-born animals were of merino appearance with dark patches on their noses, near the mouth and on their clovens. This overt chimerism shows that fetal fibroblasts introduced to sheep morulae/blastocysts revealed full developmental plasticity. To achieve the efficient production of chicken chimeras, the blastodermal cells from embryos of the donor breeds, (Green-legged Partridgelike breed or GPxAraucana) were transferred into the embryos of the recipient breed (White Leghorn), and the effect of chimerism on the selected reproductive and physiological traits of recipients was examined. Using the model which allowed identification of the chimerism at many loci, it has been found that 93.9% of the examined birds were chimeras. The effect of donor cells on the reproduction and physiology of the recipients was evident.     

Birth of large calves that developed from in vitro-derived bovine embryos

High birth weights were observed in calves that developed from bovine embryos produced by in vitro maturation (IVM) and in vitro fertilization (IVF) procedures. After IVM and IVF, embryos were either co-cultured in vitro with oviductal epithelial cells or transferred into the sheep oviduct for development to the blastocyst stage. Blastocysts were transferred to the reproductive tracts of recipient heifers and cows for development to term. Birth weights and gestation periods were compared between calves that developed from in vitro-derived embryos and calves born after artificial insemination (AI) of cows in the herd from which recipient females were selected. Gestation periods were not different among the groups (P > 0.05), but calves that developed from IVM/IVF-derived embryos co-cultured in vitro were larger at birth than calves born from IVM/IVF-derived embryos that developed into blastocysts in the sheep oviduct and calves born from AI (P < 0.001). Dystocia and calf mortality were associated with large calf size at birth. These data were collected from an experiment designed for other purposes, and confounding variables and small sample size could have influenced the observed differences in birth weights. Nevertheless, the extreme birth weights of some calves suggest that abnormal prenatal growth occurs in some IVM/IVF-derived bovine embryos and that conditions for co-culture to the blastocyst stage may exacerbate the problem.     

In vitro development up to hatching of bovine in vitro-matured and fertilized oocytes with or without support from somatic cells

To verify the importance of somatic cells upon in vitro embryo development, in vitro-matured (IVM) and -fertilized (IVF) bovine oocytes were cultured in TCM 199 supplemented with estrous cow serum (10% v/v) and 0.25 mM sodium pyruvate (ECSTCM) under the following treatments: 1) ECSTCM alone; 2) together with bovine oviduct epithelial cells (BOEC); 3) with cumulus cells (CC); 4) in fresh BOEC conditioned ECSTCM; or 5) in frozen-thawed BOEC conditioned ECSTCM. Culturing zygotes encased in cumulus cells significantly reduced the cleavage rate (P<0.05). There was no difference between culture systems in the proportions of embryo development through the 8-cell stage (P=0.42) up to the morula/blastocyst stages (P=0.50) at Day 7 post insemination. However, co-culture with BOEC yielded the highest percentage (21.2% of zygotes; P<0.05) of quality Grade-1 and Grade-2 embryos with the number of blastomeres per embryo (114.4) comparable to that of 7-day-old in vivo-developed embryos of similar grades (102.5), and higher (P<0.05) than those of the other treatments. The ratio of blastocysts to total morulae/blastocysts obtained from frozen-thawed conditioned medium was lower (P<0.05) than that from ECSTCM or after co-culture with BOEC at Day 7 post insemination. On average, 7.5 to 17.5% of the zygotes developed to blastocyst, expanded blastocyst and hatched blastocyst stages by Day 10 post insemination, depending upon the culture system. The difference between treatments, however, was not significant (P=0.68). The results indicate that chronological development up to hatching of bovine IVM-IVF embryos is not favored by somatic cells; however, the presence of viable oviduct epithelial cells in culture significantly improves the quality of 7-day-old embryos.     

Cellular composition and viability of demi- and quarter-embryos made from bisected bovine morulae and blastocysts produced in vitro

The cellular composition and viability of intact, IVP embryos were compared with those of demi- and quarter-embryos produced by bisection of IVP morulae and blastocysts. Embryos were produced by established techniques from oocytes harvested from slaughterhouse ovaries. In Experiment 1, morulae at Day 6 or blastocysts at Day 7 were bisected on an inverted microscope using a microsurgical steel blade. Demi-embryos were then cultured without a zona pellucida until Day 8, when they were morphologically assessed for quality (viability). A higher proportion of demi-embryos made from blastocysts than from morulae were classified as viable (381/420, 91% vs 164/267, 61%; P < 0.001). In Experiment 2, only Day 7 blastocysts were bisected, and some of the resulting demi-embryos were bisected a second time 24 h later to produce quarter-embryos. The remaining demi-embryos, the quarter-embryos, and control intact embryos were cultured until Day 9, at which time they were assessed for quality and subjected to immunosurgery and differential staining to count inner cell mass (ICM) and trophectoderm cells. A higher proportion of demi-embryos than quarter-embryos was classified as viable (408/459, 89% vs 223/319, 70%, respectively; P < 0.001). Total cell numbers decreased with successive bisections, but the proportion of surviving cells found in the ICM was significantly (P < 0.05) higher in the best quality demi- and quarter-embryos (35 and 32%, respectively) than in the controls (22%). Transfer of all 12 quarter-embryos derived from 3 blastocysts, in pairs, into 6 recipient heifers resulted in 2 pregnancies, each with a single viable fetus at 90 d of gestation. The fetuses originated from 2 different blastocysts. The results suggest that bisection of intact IVP embryos into demi-embryos and bisection of those into quarter-embryos can increase the number of transferable embryos by as much as 178 and 235%, respectively.     

A serum-free, cell-free culture system for development of bovine one-cell embryos up to blastocyst stage with improved viability

With the aim of developing a serum-free, cell-free culture system for embryo development, in vitro-matured (IVM) and -fertilized (IVF) bovine oocytes were cultured in TCM 199 with the following supplements: 1) BSA alone (10 mg/ml); 2) BSA with ITS (5 mug/ml insulin, 5 mug/ml transferrin and 5 ng/ml selenium; BSAITS medium); 3) estrous cow serum alone (ECS; 10%); or 4) ECS with BOEC (bovine oviduct epithelial cells) (Experiment 1). In Experiment 2, embryos were cultured in BSAITS medium with or without feeding with fresh medium on Day 4 (day of insemination = Day 0). Embryos were evaluated on Day 2 for first cleavage, on Day 7 for morulae and blastocysts, and on Day 8 for blastocysts. Blastocysts from Experiment 1 were frozen in 10% glycerol in PBS, thawed and further cultured in ECS medium with BOEC for 48 h, and evaluated for formation of a distinct blastocoel, or expansion and hatching of blastocysts. In vivo-developed, Grade-1 and Grade-2, 7-d-old embryos served as control for the freezing, thawing and subsequent culture procedures. The percentage of first cleavage did not differ between the treatments (74 to 79% in Experiment 1 and 80 to 83% in Experiment 2). The percentage of blastocysts developed in BSAITS medium did not differ from that in ECS medium whether BOEC were present or not. However, medium with BSA alone had fewer blastocysts than any other culture system (P<0.05). Feeding embryos with fresh BSAITS medium on Day 4 did not lead to any further increase in the proportion of blastocysts. The culture systems had a significant effect on the post-thaw viability of blastocysts developed in them (P<0.001). Blastocysts developed in BSAITS medium had better (P<0.05) viability (14/38) than those from medium with ECS alone (1/27) or with ECS and BOEC (3/37). The post-thaw survival of control embryos was 80% (n=30). One of the three transfers of BSAITS-treated, frozen-thawed blastocysts resulted in a pregnancy. The results indicate that a serum-free, cell-free culture system can support the development of IVM-IVF bovine oocytes up to the blastocyst stage with better viability than a complex co-culture system.     

Pluripotency of cultured rabbit inner cell mass cells detected by isozyme analysis and eye pigmentation of fetuses following injection into blastocysts or morulae

Pluripotency of isolated rabbit inner cell masses (ICMs) and cultured (3 days) inner cell mass (ICM) cells was tested by injecting these donor cells into day 3.5 blastocysts (experiment 1) or day 3 morulae (experiment 2) to produce chimeric embryos. Injected (n = 107) and noninjected (n = 103) embryos were transferred to the opposite uterine horns of the same recipient females. Chimerism was determined by adenosine deaminase (ADA) isozyme analysis on fetal tissue and by eye pigmentation at midgestation. In experiment 1, 53% and 64%, respectively, of blastocysts injected with ICMs or cultured ICM cells developed to midgestation, compared with 52% and 48% for controls. Of these fetuses, four (31%) and one (6%), respectively, had ADA chimerism. In experiment 2,38% and 62%, respectively, of the morulae injected with ICMs or cultured ICM cells developed to midgestation, compared with 46% and 56% for control morulae. Six (43%) chimeric fetuses from morulae injected with ICMs were detected by ADA analysis, but 12 (86%) chimeric fetuses were detected by eye pigmentation, indicating that eye pigmentation was a more sensitive marker for chimerism than our ADA assay. None of the 14 fetuses recovered after injecting morulae with cultured ICM cells were chimeric with either marker. No chimeras developed from control embryos. These studies demonstrate (1) that pregnancy rates are not compromised by injection of blastocysts or morulae with ICMs or cultured ICM cells, (2) that chimeric rabbit fetuses can be produced by injecting ICMs into either blastocysts or morulae, and (3) that cultured ICM cells can contribute to embryonic development when injected into blastocysts. © 1993 Wiley-Liss, Inc.     

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.     

Ram-specific effects on in-vitro fertilization and cleavage of sheep oocytes matured in vitro

The present experiments were designed to identify possible male-specific effects on early embryonic development in vitro: Sheep oocytes were matured in vitro for 24-26 h and then fertilized in vitro using equal numbers of viable spermatozoa from 1 of 6 Clun Forest rams. At 15-18 h after insemination, oocytes were either fixed and examined for fertilization and polyspermy or further cultured in modified M 199 medium for 3 days in an oviduct epithelial co-culture system. There were significant differences in 5 separate trials between the rams with respect to the rate of fertilization, degree of polyspermy and cleavage rate after monospermic fertilization. The mean rate of fertilization varied from 89% in Ram B to 43% in Ram C while the percentage of polyspermic eggs varied from 5 to 34%. Both the absolute number of embryos cleaving to the 16-cell stage and the calculated percentage of monospermic eggs reaching the 16-cell stage differed markedly between groups of eggs fertilized by different rams. The results indicate that the development of sheep eggs in vitro is differentially affected by the ram from which the spermatozoa are collected.     

Hypotaurine requirement for in vitro development of golden hamster one-cell embryos into morulae and blastocysts, and production of term offspring from in vitro-fertilized ova.

Almost 30 years after the first successful in vitro fertilization (IVF) in golden hamsters (Mesocricetus auratus), we report that IVF hamster embryos can develop in a chemically defined, protein-free culture medium into morulae and blastocysts, and produce normal offspring after transfer to recipients. When examined 96 h post-insemination, 82% (160/200) of IVF ova had cleaved to at least 2 cells, 55% (97/200) had developed beyond the 4-cell stage, and 22% (38/200) had developed into morulae/blastocysts. In vitro development of IVF embryos to greater than or equal to 8 cells was absolutely dependent on hypotaurine. Twenty living offspring were produced from transfer of IVF embryos to recipients, with an overall success rate of 5% and 17% for oviductal (2-cell) and uterine (8-cell/morulae) transfers, respectively. In vivo-fertilized pronucleate embryos collected 3 h after egg activation were less able to develop in vitro than embryos collected only 6 h later, revealing a critical influence of the oviduct within the first hours of embryo development. Hypotaurine partly compensated for the decreased oviductal exposure of early 1-cell embryos. Establishment of a key role for hypotaurine in hamster embryo development, support of IVF embryos to morula/blastocyst stages in vitro, and production of living offspring after IVF embryo transfer are significant steps towards the goal of obtaining comparative data on preimplantation embryogenesis.     

Effect of oestradiol-17 beta and progesterone on oviductal transport and early development of mouse embryos

Transport of embryos through the oviduct, cleavage rate and transformation of morulae to blastocysts, were delayed in females ovariectomized on Day 2 of pregnancy. Oestradiol-17 beta in doses of 60 to 6000 pg/day for 3 days did not normalize the transport of embryos, but the transformation of morulae to blastocysts reached values near or equal to those of the controls, in spite of a lowered rate of cleavage. Progesterone at a dose of 100 micrograms/day, resulted in normal transport, rate of cleavage and rate of differentiation. Treatment with both hormones had synergistic effects on transport and the rate of cleavage and differentiation. These results give further support to the concept that ovarian hormones are the controlling factors for these processes in early pregnancy.     

Oviductal and uterine influence on the development of Day-2 equine embryos in vivo and in vitro

The objective of this experiment was to contrast the influence of the oviductal and uterine environments on development of Day-2 embryos. Embryos were transferred to oviducts or uteri of synchronous recipient mares, or were incubated in oviductal co-culture, in uterine co-culture or in defined culture medium. Significantly more (P < 0.02) embryos transferred to the oviduct versus the uterus survived until Day 11 after ovulation (5 7 vs 0 7 , respectively). Significantly more (P < 0.001) embryos developed to expanded and hatched blastocysts in uterine co-culture than in culture medium (6 7 vs 0 7 , respectively). The rate of embryo development to expanded blastocysts was not significantly different (P > 0.1) in oviductal co-culture versus uterine co-culture (3 7 vs 6 7 , respectively), or in oviductal co-culture versus culture in medium (3 7 vs 0 7 , respectively). Three of 7 and 6 of 7 embryos developed to hatched blastocysts greater than 2000 mum in diameter during oviductal and uterine co-culture, respectively, while 0 of 7 embryos cultured in medium expanded to greater than 500 mum in diameter. Proportions of embryos that developed for at least 9 days.     

Survival rates and sex ratio of bovine IVE embryos frozen at different developmental stages on day 7

Two experiments were designed to determine the effects of stage of development on Day 7 of in vitro-produced bovine embryos on survival after deep freezing and on sex ratio. Bovine IVF embryos and bovine oviductal epithelial cells (BOEC) were co-cultured in TCM-199 and, on Day 7 after insemination (Day 0), were morphologically evaluated and divided into groups by developmental stage. In Experiment 1, embryos classified as early blastocysts, blastocysts and full-expanding blastocysts were randomly subdivided into 2 groups by replicate: 50% of the embryos were placed immediately in a new BOEC co-culture (fresh group), while the other 50% were frozen, thawed and placed in a new BOEC co-culture (frozen/thawed group). Embryos were frozen in 1.5 M glycerol using a standard slow cooling technique. Fresh and frozen/thawed embryos were compared for survival rate (embryos hatching/hatched) in BOEC co-culture over the following 3 d (i.e., Days 7 to 10). The overall survival of the 425 embryos (early to full-expanding blastocysts) was 33% and was not different between fresh (35%) and frozen/thawed (30%) embryos. Survival of embryos cultured fresh or after freezing/thawing was higher for full-expanding blastocysts than for early blastocysts or for blastocysts, both of which were not different. In Experiment 2, all frozen/thawed embryos used in Experiment 1 plus all morulae and hatched blastocysts collected and frozen on Day 7 without regard to survival were sexed utilizing the polymerase chain reaction (PCR) technique. Sex of the embryos, by stage of development on Day 7, was determined in order to compare the rate of development in BOEC co-culture with the sex ratio (percentage of males). A total of 235 embryos was sex-determined with an overall percentage of males of 51%, which was not different from the expected 1:1 sex ratio. Both full-expanding blastocysts and hatched blastocysts had a significantly higher (P < 0.05) proportion of males (68 and 100%, respectively), while morulae had a significantly lower proportion of males (24%). Early blastocysts and blastocysts did not differ from a 1:1 sex ratio. The results indicate that male embryos develop faster in vitro than female embryos. The higher survival rate of full-expanding blastocysts after freezing/thawing, and the production of a higher number of males than females among embryos of this developmental stage suggest that a greater number of male fetuses may result from the successful freezing and transfer of in vitro-produced bovine embryos.     

Cleavage beyond the block stage and survival after transfer of early bovine embryos cultured with trophoblastic vesicles

Early bovine embryos (1- to 8-cell stages) were recovered from superovulated heifers at slaughter on Days 2 or 3. Embryos were cultured for 3-4 days in Medium B2 supplemented with 15% (v/v) fetal calf serum in the absence (B2SS, 106 embryos) or presence of trophoblastic vesicles (B2SS + TV, 190 embryos). At the end of culture, there were more (P less than 0.001) morulae (greater than or equal to 16 cells) in B2SS X TV (46%) than in B2SS alone (18%) irrespective of the initial cell stage. More 8-cell embryos reached the 16-cell stage than did embryos with less than 8 cells (30% vs 15% in B2SS, P greater than 0.05; 70% vs 41% in B2SS + TV, P less than 0.005). After culture, 102 morulae were transferred non-surgically to temporary recipient heifers (84 embryos cultured in B2SS + TV and 18 in B2SS). After 2 or 3 days, 14 out of 58 embryos from the B2SS + TV group and 3 out of 10 embryos from the B2SS group were recovered as blastocysts. Most blastocysts were deep-frozen and stored for several weeks. After thawing, 10 apparently normal embryos from the B2SS + TV group were transferred non-surgically into 10 recipient heifers. Four pregnancies were induced, but only one embryo survived to term (birth of a normal male calf). It is concluded that trophoblastic vesicles release one or several unknown compound(s) normally present in vivo, promoting the cleavage of early bovine embryos.     

Co-culture of rabbit one-cell embryos with rabbit oviduct epithelial cells

Summary Rabbit 1-cell embryos were co-cultured with rabbit oviduct epithelial cells (ROEC) to determine if ROEC can enhance embryo development in vitro. Primary ROEC were cultured in serum-free media at 39°C in a 5% CO₂:95% air environment. In experiment 1, 1-cell embryos were co-cultured in Ham's F10 with freshly collected or 4-d-old cultures of ROEC seeded in plastic culture wells or on collagen membranes. One-cell embryos cultured without ROEC served as controls. After 65 h in culture, embryos were stained with Hoechst 33342 to determine the number of cells per embryo. Cell numbers were higher (P<0.035) in all co-culture treatments when compared to controls. Optimal development was obtained by co-culture with 4-d-old ROEC grown on plastic (P<0.003). In experiment 2, Ham's F10, Medium 199, and CZB with glucose medium were compared for their ability to support embryo development in the presence or absence of 4-d-old ROEC growth on plastic. Cell number and the percentage of embryos becoming blastocysts were significantly (P<0.002) higher for embryos cultured in Medium 199 compared to the other media tested. In Medium 199, co-culture with ROEC resulted in only a slight, nonsignificant increase in cell number over culture in Medium 199 alone (110 vs. 96 cells). However, the percentage of embryos reaching the blastocyst stage when co-cultured in Medium 199 with ROEC (49%) was nearly twice (P=0.01) that of embryos in Medium 199 without ROEC (26%). In experiment 3, transfer of embryos cultured in Medium 199 with or without ROEC of 24 or 48 h resulted in no significant differences in posttransfer development. These data indicate a beneficial effect of ROEC on blastogenesis and a salvage effect of ROEC on cell proliferation in embryos grown in a less supportive medium such as Ham's F10. This work was supported by a Multicenter Cooperative Program on Non-HumanIn Vitro Fertilization and Preimplantation Development and was funded by the National Institute of Child Health and Human Development, NIH, Bethesda, MD, through Cooperative Agreement HD 21939.