Human leukemia inhibitory factor improves the viability of cultured ovine embryos.

Embryos were collected from ewes on Day 6 after estrus (Day 0 = estrus), placed in M2 culture medium, and assigned to 1 of 4 treatment groups. Some embryos were transferred to recipient ewes on Day 6 of their estrous cycle either in pairs (group 1) or singularly (group 2) within 3 h of collection. The remaining embryos were individually cultured for 48 h in an atmosphere of 5% CO2 in humidified air in either synthetic oviduct fluid (SOF) medium (group 3) or SOF containing 1,000 U/ml of recombinant human leukemia inhibitory factor (hLIF) (SOF + hLIF: group 4). These embryos were then transferred to recipient ewes on Day 8 of their estrous cycle. The addition of hLIF to culture medium significantly improved the development of the embryos compared with control embryos prior to transfer (blastocysts hatching from the zona pellucida: group 3 = 16% vs. group 4 = 64%, p less than 0.05; those degenerative: group 3 = 27% vs. group 4 = 9%, p less than 0.05) and the subsequent pregnancy rates of the recipient ewes, receiving a single embryo, at Day 70 of pregnancy (group 3 = 16% vs. group 4 = 50%, p less than 0.05). The pregnancy rate of ewes given embryos cultured for 48 h in SOF + hLIF prior to transfer (50%; group 4) was similar to the group 2 ewes receiving a single embryo soon after collection (52%), but the pregnancy rate for both groups was significantly lower than that for the group 1 ewes receiving two embryos soon after collection (89%: 53% twins, 36% singles; p less than 0.05).     

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.     

Non-invasive assessment of embryonic sex in cattle by metabolic fingerprinting of in vitro culture medium

The objective of this work was to determine whether metabolic fingerprinting of spent bovine embryo culture media using Fourier transform infrared spectroscopy (FTIR) correlates with embryonic sex. Embryos were produced in vitro from oocytes collected from cows slaughtered in an abattoir. Day-6 embryos were individually cultured in synthetic oviduct fluid for 24 h, prior to the time (Day-7) intended for embryo transfer or cryopreservation. Culture medium was analyzed by FTIR. Embryos were sexed by a PCR procedure based on amelogenin gene amplification or transferred to a recipient and sex observed at birth. Media samples from embryos diagnosed as male (n = 47) or female (n = 70) were individually collected and evaluated using FTIR. The spectra obtained were analyzed according to metabolomic profile of embryo culture media and embryonic sex. The discrimination capability of the classifiers was assessed for accuracy, sensitivity (female), sensitivity (male) and area under the ROC curve (AUC). Performance of sex prediction (%) was high within early blastocysts + blastocysts (74.4 ± 10.2, accuracy; 0.749 ± 0.099, AUC) and excellent for expanded blastocysts (86.0 ± 12.6, accuracy; 0.898 ± 0.094, AUC). A combination of metabolomic and bioinformatic analysis provides a non-invasive mean of embryonic sex analysis.     

Comparison on in vitro fertilized bovine embryos cultured in KSOM or SOF and cryopreserved by slow freezing or vitrification

The objectives of this study were to identify an improved in vitro cell-free embryo culture system and to compare post-warming development of in vitro produced (IVP) bovine embryos following vitrification versus slow freezing. In Experiment 1, non-selected presumptive zygotes were randomly allocated to four medium treatments without co-culture: (1) SOF + 5% FCS for 9 days; (2) KSOM + 0.1% BSA for 4 days and then KSOM + 1% BSA to Day 9; (3) SOF + 5% FCS for 4 days and then KSOM + 1% BSA to Day 9; and (4) KSOM + 0.1% BSA for 4 days and then SOF + 5% FCS to Day 9. Treatment 4 (sequential KSOM-SOF culture system) improved (P > 0.05) morulae (47%), early blastocysts (26%), Day-7 blastocysts (36%), cell numbers, as well as total hatching rate (79%) compared to KSOM alone (Treatment 2). Embryos cultured in KSOM + BSA alone developed slowly and most of them hatched late on Day 9, compared to other treatments. In Experiment 2, the sequential KSOM-SOF culture system was used and Day-7 blastocysts were subjected to following cryopreservation comparison: (1) vitrification (VS3a, 6.5 M glycerol); or (2) slow freezing (1.36 M glycerol). Warmed embryos were cultured in SOF with 7.5% FCS. Higher embryo development and hatching rates (P < 0.05) were obtained by vitrification at 6h (71%), 24h (64%), and 48h (60%) post-warming compared to slow freezing (48, 40, and 31%, respectively). Following transfer of vitrified embryos to synchronized recipients, a 30% pregnancy rate was obtained. In conclusion, replacing KSOM with SOF after 4 days of culture produced better quality blastocysts. Vitrification using VS3a may be used more effectively to cryopreserve in vitro produced embryos than the conventional slow freezing method.     

Effects of asynchrony on rabbit blastocyst development

The development of synchronously and asynchronously transferred rabbit morulae (recovered at Day 3 p.c.) and blastocysts (recovered at Day 4 p.c.) was investigated before the anticipated time of implantation. The results obtained with various techniques (evaluation of gross morphology, measurement of diameter, thymidine incorporation, light and electron microscopy) led basically to the same conclusions. Embryos being asynchronously transferred to the uterus of recipient rabbits survived, at least in terms of certain cellular functions like cell proliferation, for more than 2 days. Development, however, was clearly retarded and ultrastructural examination revealed substantial cell damage. Some blastocysts showed, even after 3 days, normal growth and cell proliferation indicating considerable differences between individuals in the ability to compensate for suboptimal developmental conditions before implantation. In general, this ability was greater in the transferred Day-3 morulae than in the Day-4 blastocysts. Embryonic growth and the ability to dissolve the zona pellucida, to synthesize crystalloid bodies and to differentiate extraembryonic endoderm indicated the maintenance of some developmental functions under asynchronous conditions. Blastocyst development was influenced by the progestational stage of the recipient. At 1 day after transfer into asynchronous older uteri, blastocyst diameters were larger and cell proliferation was increased compared with all other groups, suggesting an attempt of the blastocyst to adjust to the more advanced maternal milieu. Development in asynchronous younger uteri was delayed. No comparable differences in development were found in cultured embryos for which the media had been supplemented with flushings from the same progestational uterine stages as used for transfer. Thymidine incorporation in cultured embryos did not differ between the various supplements (P greater than 0.05) and was generally lower than in chronologically aged asynchronously transferred embryos (P less than 0.05 for Day-3 and P less than 0.001 or P greater than 0.05 for Day-4 embryos).     

Assay of embryo-derived platelet activating factor (EDPAF) by an equine platelet aggregation assay: Preliminary data concerning its presence in bovine embryo culture media

This study was designed to establish a sensitive bioassay for bovine platelet-activating factor (PAF), to determine if the bovine embryo secretes PAF in vitro and if PAF release is correlated with the embryo's potential to establish a pregnancy. Using an equine platelet aggregation assay, lipid extracted culture media from 33 Day-7 embryos (individually cultured for 18 hours in 1 ml of Ham's F10 containing 0.4% BSA at 37 degrees C in an air: CO2 mixture of 95:5 prior to their transfer to recipient heifers) and from control media (n=15, Ham's F10+0.4% BSA incubated simultaneously without embryos) were investigated. In addition, culture media from Day-6 (n=6) and Day-1 (2-cell, n=12) bovine embryos that were cultured for 4 hours but not transferred were examined. The aggregation assay proved to be sensitive to 5 pg of PAF. The assay proved to be specific, since the PAF receptor antagonist SRI 63-441 inhibited platelet aggregation induced by culture media in dosages comparable to aggregation induced by synthetic PAF18. From the 15 Day-7 embryos that established a pregnancy 2 contained measurable amounts of PAF in their culture media. No PAF was detected in the culture media from 13 embryos that succeeded, in the 18 embryos that failed to establish a pregnancy, or in the control media. One of 6 Day-6 embryos and 3 of 12 Day-1 (2-cell) embryos secreted detectable amounts of PAF into the culture media. Although the results indicate that some bovine embryos release PAF or a PAF-like substance in vitro, PAF measurements in the culture medium seem not to be a suitable method for the evaluation of bovine embryos prior to transfer.     

Pregnancies following transfer of equine embryos cryopreserved by vitrification

The objective of this study was to investigate the in vitro and in vivo developmental abilities of equine embryos cryopreserved by vitrification. Twenty-eight embryos were recovered from Native pony and Thoroughbred mares at Days 5 to 7 by nonsurgical uterine flushing (detection of ovulation=Day 0). The vitrification solution contained 40% ethylene glycol, 18% Ficoll, and 0.3 M sucrose in PBS. The embryos were placed for 1 to 2 min in vitrification solution (Group 1) or following exposure to 20% ethylene glycol in PBS for 10 to 20 min (Groups 2 and 3). Single embryos were loaded in 0.25-ml straws, cooled for 1 min in liquid nitrogen vapor and immersed in liquid nitrogen. Straws were warmed in water (20 degrees C, 20 sec), and the contents were expelled with 0.5 M sucrose in PBS. Then the sucrose was diluted in 1-step (Groups 1 and 2) or 4-steps (Group 3). Embryos (n=21) were cultured for 120 h in TCM199 supplemented with 10% fetal bovine serum at 37 degrees C in 5% CO(2) in air and evaluated morphologically. Development to the hatching or hatched blastocyst stage was obtained in 0 7 , 4 7 and 4 7 embryos in Groups 1, 2 and 3, respectively. An additional 7 embryos were vitrified-warmed according to the treatment of Group 2 (4 embryos) and Group 3 (3 embryos). Five embryos were selected after in vitro culture for 4 h and were transferred nonsurgically into the uterine horn of Day-4 recipient mares. Transfer of 2 embryos (both Day-6 blastocysts: Group-2 treatment) resulted in pregnancies with a viable fetus at Day-60 of the gestation period.     

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.     

The absence of direct effects of prostaglandin F2α on preimplantation mouse embryos in vitro

Preimplantation mouse embryos were cultured in vitro in concentrations of PGF_2α ranging from 5 nanograms/ml to 100 micrograms/ml. Embryos were cultured at the 2-cell stage, 4-cell stage, 8-cell stage and the morula stage and observed for normal development to the blastocyst stage. There was no significant difference (P < .1) between the number of blastocysts attained in the control group and those in the experimental groups. After reaching the blastocyst stage, the embryos were transferred to the uteri of pseudopregnant recipient females. Again, there was no significant difference (P < .3) between controls and PGF_2α treated embryos in the number developing to term. These data suggest that exposure to PGF_2α does not result in teratogenic effects or early death in preimplantation embryos.     

Factors affecting the survival of bisected sheep embryos in vivo

Two experiments were carried out to examine the effects of different factors on the survival of split sheep embryos. In Experiment 1, embryos collected on Day-6, Day-7 or Day-8 were bisected and transferred into recipient ewes in pairs. The proportions of Day-6, Day-7 and Day-8 demi-embryos developing to lambs were 26% (14 54 ), 30% (31 102 ) and 32% (24 74 ), respectively. Replacement of bisected late morula to expanded late blastocyst stage embryos into zonae did not affect their survival rate (P>0.5). The proportion of demi-embryos developing to lambs in recipients with two or more ovulations was higher (35%, 53 152 ) than in recipients with a single ovulation (21%, 16 78 ; P<0.05). In Experiment 2, Day-6 embryos were split with or without exposure to 0.25 M of sucrose and were transferred into recipients in pairs or singly. Exposure to 0.25 M of sucrose decreased the proportion of split embryos developing to lambs compared with that of the controls (31%, 22 70 vs 49%, 34 70 ; P<0.05). The effects of the number of demi-embryos transferred or the stage of development on the survival rate were not significant (P>0.05). The number of lambs born per original embryo was the highest when the embryos were split without exposure to sucrose and transferred into recipients singly (106%, 17 16 ).     

Effect of coculture with oviduct epithelial cells on viability after transfer of vitrified in vitro produced goat embryos

This study evaluates the effect of coculture with goat oviduct epithelial cells (GOEC) on the pregnancy rate, embryo survival rate and offspring development after direct transfer of vitrified/thawed caprine in vitro produced (IVP) embryos. Oocytes were recovered from slaughterhouse goat ovaries, matured and inseminated with frozen/thawed capacitated semen, and presumptive zygotes were randomly cultured in synthetic oviduct fluid (SOF) (n=352) or GOEC (n=314). The percentage of cleaved embryos reaching the blastocyst stage was 28% and 20% in SOF and GOEC, respectively (P<0.05). Overall, 26 blastocysts of SOF were transferred freshly in pairs to recipient goats, whereas 58 of SOF and 36 of GOEC were vitrified and transferred directly in pairs to recipient goats after thawing without removal of cryoprotectants or morphological evaluation. The kidding rate was 92% for SOF fresh, 14% for SOF vitrified (P<0.001) and 56% for GOEC vitrified (P<0.05); the difference was also significant between vitrified groups (P<0.01). The embryo survival rate was 62% for SOF fresh, 9% for SOF vitrified (P<0.001) and 33% for GOEC vitrified (P<0.05) with a significant difference between vitrified groups (P<0.01). The results showed that the coculture of IVP goat embryos with GOEC significantly improves the pregnancy and embryo survival rates and leads to the birth of healthy offspring. However, further research using more defined GOEC coculture is required to confirm its capacity to increase the success rate of IVP embryo technology in goat.     

Large-scale in vitro embryo production and pregnancy rates from Bos taurus, Bos indicus, and indicus-taurus dairy cows using sexed sperm

Herein we describe a large-scale commercial program for in vitro production of embryos from dairy Bos taurus, Bos indicus, and indicus-taurus donors, using sexed sperm. From 5,407 OPU, we compared the number of recovered oocytes (n = 90,086), viable oocytes (n = 64,826), and embryos produced in vitro from Gir (Bos indicus, n = 617), Holstein (Bos taurus, n = 180), 1/4 Holstein × 3/4 Gir (n = 44), and 1/2 Holstein-Gir (n = 37) crossbred cows, and the pregnancy rate of recipient cows. Viable oocytes were in vitro matured (24 h at 38.8 °C, 5% CO₂ in air) and fertilized by incubating them for 18 to 20 h with frozen-thawed sexed sperm (X-chromosome bearing) from Gir (n = 8) or Holstein (n = 7) sires (2 × 10⁶ sperm/dose). Embryos were cultured in similar conditions of temperature and atmosphere as for IVM, with variable intervals of culture (between Days 2 and 5) completed in a portable incubator. All embryos were transferred fresh, after 24 to 72 h of transportation (up to 2,000 km). On average, 16.7 ± 6.3 oocytes (mean ± SEM) were obtained per OPU procedure and 72.0% were considered viable. Total and viable oocytes per OPU procedure were 17.1 ± 4.5 and 12.1 ± 3.9 for Gir cows, 11.4 ± 3.9 and 8.0 ± 2.7 for Holstein cows, 20.4 ± 5.8 and 16.8 ± 5.0 for 1/4 Holstein × 3/4 Gir, and 31.4 ± 5.6 and 24.3 ± 4.7 for 1/2 Holstein-Gir crossbred females (P < 0.01). The mean number of embryos produced by OPU/IVF and the pregnancy rates were 3.2 (12,243/ 3,778) and 40% for Gir cows, 2.1 (2,426/1,138) and 36% for Holstein cows, 3.9 (1,033/267) and 37% for 1/4 Holstein × 3/4 Gir, and 5.5 (1,222/224), and 37% for 1/2 Holstein-Gir. In conclusion, we compared oocyte yield from two levels of indicus-taurus breeds and demonstrated the efficiency of sexed sperm for in vitro embryo production. Culturing embryos during long distance transportation was successful, with potential for international movement of embryos.     

Fetal development of mouse oocytes and zygotes cryopreserved in a nonconventional freezing medium

This study (1) analyzed fetal development of mouse embryos after oocyte cryopreservation in CJ2, a choline-based medium, (2) examined the effect of culture duration in vitro on subsequent fetal development, and (3) compared survival and fetal development of zygotes frozen in embryo transfer freeze medium (ETFM; sodium-based medium) or CJ2. Unfertilized oocytes and zygotes were cryopreserved using a slow-cooling protocol. After thawing, oocytes were inseminated after drilling a hole in their zona, cultured in vitro either to the two-cell or blastocyst stage, and transferred to the oviducts or uterine horns of recipient mice. In parallel experiments, frozen-thawed zygotes were similarly cultured and transferred. Implantation rates for transferred embryos were high (range 66-88%), regardless of whether they had been frozen as oocytes or zygotes and whether they had been transferred to the oviduct or uterus. However, fetal development was significantly higher when two-cell embryos were transferred. With blastocyst transfer, control embryos implanted and produced a greater proportion of fetuses than did oocytes frozen in CJ2, whereas transfer at the two-cell stage resulted in similar proportions of implantation sites and fetuses. Blastocyst transfer of zygotes cryopreserved in ETFM or CJ2 produced similar fetal development rates (23.6% vs 20.0%), but when frozen-thawed zygotes were transferred at the two-cell stage the fetal development rates were higher in the ETFM group (53.3%) than in the CJ2 group (32.0%). A high proportion (46.7%) of oocytes frozen in CJ2 in a nonprogrammable freezer and plunged at -20 degrees C developed into live offspring. This study shows that in the mouse (1) oocytes frozen in CJ2 can develop into viable fetuses, (2) prolonging culture in vitro has a detrimental effect on embryo transfer outcome, and (3) CJ2 offers no advantage for zygote cryopreservation.     

Aberrant fetal growth and development after in vitro culture of sheep zygotes.

The effects of in vitro culture systems for sheep zygotes on subsequent fetal growth and development to day 61 and day 125 of gestation were studied. Zygotes recovered from superovulated Scottish Blackface ewes approximately 36 h after intrauterine insemination using semen from a single Suffolk sire were cultured for 5 days in (a) a granulosa cell co-culture system (co-culture); (b) synthetic oviductal fluid medium without serum (SOF-); and (c) synthetic oviductal fluid medium supplemented with human serum (SOF+). Control embryos were recovered from superovulated donor ewes at day 6 after oestrus. Embryos were transferred at day 6 to synchronous Scottish Blackface recipient ewes. In total, 146 gravid uteri were recovered, comprising 97 at day 61 (20 co-culture, 27 SOF-, 25 SOF+ and 25 control) and 49 at day 125 (13 co-culture, 8 SOF-, 6 SOF+ and 22 control) of gestation. Fetuses derived from co-cultured embryos were 14% heavier (P < 0.01) by day 61 of gestation than those derived from control embryos. Growth coefficients derived from the linear allometric equation logey = logea + b logex (where y = organ mass; x = fetal mass) were significantly greater (P < 0.05) for liver, heart, kidneys and plantaris muscle in fetuses derived from co-cultured embryos, and for liver in fetuses derived from SOF+ embryos than those for control fetuses. Fetuses derived from co-cultured embryos were 34% heavier (P < 0.001) and fetuses derived from SOF+ embryos were 18% heavier (P < 0.01) by day 125 of gestation than those derived from control embryos. Growth coefficients for liver and heart for fetuses derived from co-culture and SOF+ embryos were also significantly greater (P < 0.05) at this stage of gestation than those for control group fetuses. In contrast, allometric coefficients for these organs in fetuses derived from embryos cultured in SOF without serum supplementation were not different from those for controls. Excessive volumes of amniotic fluid (polyhydramnios) were observed in 23% of conceptuses derived from co-cultured embryos. In vitro embryo culture can significantly influence fetal growth and this study provides quantitative evidence of major shifts in the patterns of organ and tissue development.     

Improved development of rabbit one-cell embryos to the hatching blastocyst stage by culture in a defined, protein-free culture medium

In Exp. 1, Medium 199 and Medium RD (RPMI-1640 and Dulbecco's MEM, 1:1 v/v) were compared in a 2 x 2 factorial design by supplementing each with 15 mg bovine serum albumin (BSA)/ml of 1 mg polyvinyl alcohol (PVA)/ml. All media contained 5 micrograms insulin/ml, 5 micrograms transferrin/ml, 5 ng selenium/ml (ITS), and 10 ng epidermal growth factor (EGF)/ml. One-cell embryos were cultured at 39 degrees C with 5% CO2 in air for 65 h and then stained with Hoechst 33342 to determine blastomere number. Embryos in Medium 199 developed poorly (P less than 0.001) when PVA was used instead of BSA (30 vs 76 cells/embryo), but developed rapidly in Medium RD with PVA or BSA (118 and 121 cells). Similar results were obtained in Exp. 2 in BSA- and PVA-free medium. In Exp. 3, the development of 1-cell embryos after 65 h in unsupplemented (protein-free) Medium RD (68% blastocysts, 117 cells) did not differ (P greater than 0.37) from that obtained using Medium RD with insulin, ITS or EGF alone. Culture in protein-free Medium RD for 96 h resulted in 82% of the 1-cell embryos forming blastocysts and 40% hatching through the zona pellucida. In a preliminary test of viability, 1-cell embryos cultured in this medium for 48 or 65 h and transferred to synchronous recipients resulted in 5/18 (28%) and 3/24 (12%) Day-15 viable fetuses. Cell counts of approximately 120 per blastocyst after culturing 1-cell embryos for 65 h in Medium RD indicated that cell division was more rapid than that obtained with all other media tested previously in this laboratory. This is the first report of rabbit embryo development from the 1-cell to the hatching blastocyst stage in a defined protein-free culture medium.     

The effect of glutamine on the development of sheep embryos in vitro

The effects of glutamine (Gln) on the in vitro development of sheep embryos cocultured with sheep oviduct epithelial cells (SOEC) or cultured in medium alone were investigated. The in vitro development was evaluated after culture in synthetic oviduct fluid (SOF) medium to Day 6, and then the viability of some of the morula/blastocyst stage embryos was assessed by transfer into recipient ewes. In Experiment 1, sheep embryos were cultured from Day 2 to Day 6 in SOF containing 0 or 1 mM Gln with or without (SOEC) support in a 2 x 2 factorial design. An interaction was found between the effects of Gln and SOEC (P<0.001). The addition of Gln increased blastocyst formation (6%, 2 36 vs 35%, 11 31 ) and the rate of pregnancy (50%, 4 8 vs 100%, 5 5 ) when the embryos were cultured in medium alone, but had no beneficial effect in the presence of SOEC. In Experiments 2 and 3, sheep embryos were cultured from Day 1 to Day 6 in SOF supplemented with 1 mM Gln, with 1 mM alpha-ketoglutarate or without supplementation (control). In Experiment 2, no other amino acids were added, but in Experiment 3 SOF was supplemented with 19 other amino acids. In Experiment 2, when Gln was the only amino acid, the rate of blastocyst formation was increased by the addition of Gln (24%, 8 35 ), but alpha-ketoglutarate caused no increase in blastocyst formation (3%, 1 34 ) compared to the control group (6%, 2 34 ). In Experiment 3, when 19 other amino acids were added, neither Gln nor alpha-ketoglutarate affected the rate of blastocyst formation or the subsequent development of embryos in recipient ewes. These results showed that Gln, when used as a single amino acid, has a beneficial effect on the development of sheep embryos in serum free culture without somatic cells. The data suggest that Gln is used as a source of amino groups rather than as a source of energy since no beneficial effects were found when its deaminated carbon skeleton (alpha-ketoglutarate) was used or when other amino acids were present.     

Radioactive labeling of proteins in cultured postimplantation mouse embryos II. Dose and time dependency

Summary The conditions for optimum incorporation of radioactive amino acids into proteins of cultured postimplantation mouse embryos were investigated under the aspect of using these proteins for two-dimensional electrophoretic separations and fluorography. The aim was to obtain highly radioactively labeled proteins under conditions as physiological as possible. Mouse embryos of Days 8, 10, and 11 of gestation were cultured in Tyrode’s solution. Incubation time and concentration of [³H (or¹⁴C)]amino acids in the culture medium were varied over a broad range. Embryos were prepared with placenta and yolk sac or without any embryonic envelopes. After culturing, the physiologic-morphologic state of the embryos was registered on the basis of several criteria. The radioactivity taken up by the total protein of each embryo was determined and calculated in disintegrations per minute per milligram protein per embryo. To approach our aim, embryos of different developmental stages had to be cultured under different conditions. A good compromise for Day-8, Day-10, and Day-11 embryos was: embryos prepared with yolk sac (opened) and placenta, 150 μCi radioactive amino acids added per milliliter medium, incubation for 4 to 5 h. For maximum labeling of proteins it is advisable to culture Day-10 embryos without embryonic envelopes under particular conditions. This work was supported by grants from the Deutsche Forschungsgemeinschaft awarded to the project K1 237/3-2 (Systematic analysis of cell proteins).     

Factors affecting bovine embryo development in synthetic oviduct fluid following oocyte maturation and fertilization in vitro

Employing a total of 3465 bovine oocytes this study was aimed at improving the efficiency of bovine embryo production under defined and undefined conditions. Following in vitro maturation (IVM) and in vitro fertilization (IVF), oocytes were allocated to various culture treatments using synthetic oviduct fluid (SOF). In our 3 experiments we showed that: 1) the addition of fetal calf serum (FCS 10% v/v) to SOF droplets after 20 to 24 h significantly improved blastocyst yields on Day 6 (21 vs 12%; P < 0.01), but not at later stages and resulted in significantly higher Day-8 blastocyst cell numbers (148 +/- 61 vs 92 +/- 35; P < 0.05); 2) the removal of bovine serum albumin (BSA) from the standard SOF medium resulted in significantly reduced blastocyst yields on Days 6, 7 and 8, respectively (17 vs 8%; 28 vs 18%; 31 vs 21%; P < 0.05); 3) the presence or absence of cumulus cells surrounding the presumptive zygote in culture in SOF had no effect on cleavage rate, percentage of 5-8 cell embryos or blastocyst yields (Day 6,7 or 8); 4) the culture of presumptive zygotes in SOF in an atmosphere of 5% CO2 in air (20% O2) resulted in significantly reduced development compared with culture in 5% CO2, 5% O2, 90% N2 in terms of blastocyst yield on Days 6, 7 and 8 and on Day 8 hatching rate, respectively (5 vs 22%; 9 vs 33%; 13 vs 48%; 50 vs 8%; P < 0.001) and 5) embryo density (1 embryo per 1 or 3 microl SOF) or replacing the culture medium every 48 h had no effect when SOF was supplemented with serum; however, under serum-free conditions, changing of the media resulted in a slightly improved Day-6 blastocyst yield such that renewal of serum-free medium mimicked the effect of serum addition.     

One-step dilution of open-pulled-straw (OPS)-vitrified mouse blastocysts in sucrose-free medium

Embryos vitrified by the open-pulled-straw (OPS) method are only briefly exposed to cryoprotectants and not fully equilibrated with the cryoprotectant. That being the case, conceivably the post-thawing de- and rehydration processes may be omitted. This would render thawing and dilution in a single step and direct transfer to recipients possible without the need for a microscope and other laboratory equipment. Morphologically intact mouse blastocysts from superovulated 5- to 8-week-old virgin female NMRI mice were vitrified according to a protocol [6] slightly modified from the classical OPS-procedure of Vajta et al. [29] consisting of exposure to 10% dimethyl-sulfoxide (Me₂SO) + 10% ethylene glycol (EG) for 1 min, followed by 20% Me₂SO + 20% EG for 20 s before loading into straws that are plunged into liquid nitrogen. In Group 1, 75 blastocysts were exposed to the standard thawing and dilution regimen involving exposure to three solutions of decreasing sucrose content (Control). In Groups 2, 3 and 4, 75 blastocysts each were transferred, in a single step, to medium at 37 °C containing 0.66, 0.33 or 0 M sucrose, respectively. After 48 h of in vitro culture the proportion of hatched blastocysts was determined. In Group 1, this proportion amounted to 82.7%, in Groups 2, 3 and 4 to 76.0%, 73.3% and 78.7%, respectively (P > 0.05). To examine their potential to continue development in vivo, OPS-vitrified blastocysts thawed according to the regimens of Groups 1 and 4 were transferred to recipients (10 embryos/recipient). In Group 1, 9/10 recipients got pregnant with 4.7 ± 0.6 (mean ± SEM) fetuses, in Group 4, 8/10 recipients with 5.0 ± 0.5 fetuses. The overall embryo survival rate per group was 42% for Group 1 and 40% for Group 4. All fetuses were normally developed and viable and there were no significant differences between groups (P > 0.05). It may be concluded that warming and transfer of OPS-vitrified mouse embryos in a single step in medium devoid of sucrose is feasible, which is tantamount to a substantial simplification of embryo transfer operations.     

Survival of DNA-injected cow embryos temporarily cultured in rabbit oviducts

Holstein or Angus cows were superovulated, inseminated with fresh bull semen, and necropsied about 12 h after estimated time of ovulation. Ova were centrifuged at 15,600 G for 3 to 8 min to reveal pronuclei. In Experiment 1, pronuclear bovine embryos were transferred to ligated or unligated oviducts of 1-d pseudopregnant rabbits for 7 d; 30 of 32 embryos were recovered from ligated oviducts but only 2 of 26 from oviducts and uterine horns of unligated oviducts. In Experiment 2, a Rous sarcoma virus-chloramphenicol acetyl transferase fusion gene was injected into one pronucleus of about half of 404 fertilized bovine ova, using a micromanipulator and interference contrast optics. Injected and noninjected embryos were then transferred to opposite ligated rabbit oviducts. Embryos were recovered after 7, 8 or 9 d. Of 120 centrifuged but ininjected embryos recovered from rabbit oviducts, 66 (55%) were in the morula to hatching blastocyst stage of development. Of 105 embryos centrifuged and injected with foreign DNA, 55 (52%) were in the morula to hatching blastocyst stage. In Experiment 3, centrifuged bovine embryos, noninjected or DNA-injected, were cultured in rabbit oviducts for 7 d then transferred nonsurgically to the uterus of recipient cows. Embryos were also flushed from superovulated cows 8 d after estrus and transferred directly to recipient cows. After 7 d, the uterus of recipient cows was flushed nonsurgically to recover embryos. The proportion of transferred embryos recovered with normally elongated trophoblastic membranes and the proportion of recipient cows with developing embryos were 14 of 25 DNA-injected embryos, 5 of 8 cows; 6 of 15 centrifuged but noninjected embryos, 4 of 6 cows; and 11 of 29 embryos transferred directly, 5 of 8 cows. Results indicate that bovine embryos can be cultured in rabbit oviducts and survive after transfer to cow uteri and that injection of foreign DNA may not increase embryonic loss within the first 2 wk after injection.