Chronological appearance of spontaneous and induced apoptosis during preimplantation development of rabbit and mouse embryos

This study was undertaken to obtain specific information on the characteristics of spontaneous and induced apoptosis during preimplantation development of rabbit in vivo and in vitro developed embryos and mouse in vitro embryos. After reaching appropriate developmental stages, embryos were transferred into culture media with or without apoptotic inductor (actinomycin D 500 ng/mL) and cultured for 10 h. The identification of apoptotic cells was based on morphological assessment of nuclei and on detection of specific DNA degradation, phosphatidylserine redistribution and active caspase-3 under fluorescence microscope. Our experiments proved that apoptosis is a frequent physiological event occurring during normal preimplantation development. A high number of untreated rabbit and mouse blastocysts contained at least one apoptotic cell. Rabbit embryos showed a lower incidence of spontaneous apoptosis. Treated blastocysts of both species responded to the presence of apoptotic inductor by significant decrease in the average number of blastomeres and significant increase in the incidence of apoptotic cell death. The occurrence of spontaneous apoptosis during earlier preimplantation development was sporadic and its presence was observed only at stages following embryonic genome activation (at 4-cell stage and later in mouse, at 16-cell and morula stage in rabbit). The susceptibility of embryos at early stages to the apoptotic inductor was much lower. The presence of actinomycin D did not increase the incidence of apoptotic embryos or apoptotic cells. Nevertheless, it slowed down embryo growth and triggered earlier appearance of some apoptotic features (at the 6-cell stage in rabbit). The results show that the occurrence of both spontaneous and induced apoptosis in preimplantation embryos is stage- and species-specific.     

Influences of retrieval stages and glutathione addition on post-thaw viability of quick frozen mouse morula during in vitro culture

Effects of the embryo retrieval stages and addition of glutathione (GSH) on post-thaw development of mouse morula were evaluated in 2 consecutive experiments. In the first experiment, 1-, 2-, 3- to 4- and 5- to 8-cell stage embryos were collected and cultured to the morula stage in Whitten's medium containing 0.1 mM ethylenediaminetetraacetic acid (EDTA). The development rate of 1-cell embryos to the morula stage was lower than that of the other stages (P<0.01). The post-thaw development rate of the morulae obtained from in vitro culture of 1-, 2-, 3- to 4-, and 5- to 8-cell embryos and from in vivo embryos (control) to the blastocyst stage was 55.5, 84.9, 87.4, 90.1 and 90.8%, respectively. The post-thaw development rate of morula obtained from in vitro produced 1-cell embryos was significantly lower than from the other stages or from the in vivo counterparts (P<0.0001). In Experiment 2, the impact of GSH supplementation of the culture medium in the presence or absence of EDTA was evaluated for embryo development to the morula stage and post-thaw survival, using in the 2 x 2 factorial design. Although EDTA supplementation increased development rates to the morulae (P<0.01) stage, GSH did not have an influence on morula development. However, the presence of either GSH or EDTA in the culture medium supported development to the blastocyst stage (P<0.01) of in vitro produced morulae. These data demonstrate that 1-cell embryos from a blocking-strain mouse cultured in vitro to the morula stage have a lower development rate following freezing and thawing than embryos collected at the 2-cell or later stages. Addition of EDTA or GSH, individually or in combination, to the culture medium may improve the development rate of morula to blastocyst stage following cryopreservation.     

Effect of RU486 on different stages of mouse preimplantation embryos in vitro

17 beta-Hydroxy-11 beta(4-dimethylaminophenyl)-17 alpha-(1-propynyl)estra-4, 9-dien-3-one (RU486) inhibited the in vitro development of different stages of mouse preimplantation embryos under study. Two-celled embryos, morulae, and early blastocysts were obtained from B6D2F1 mice. The embryos were grown in Ham F-10 nutrient mixture (with glutamine) supplemented with sodium bicarbonate (2.1 g/L), calcium lactate (282 mg/L), and bovine serum albumin (fraction V, 3 mg/mL) at 37 degrees C in a humidified incubator supplied with 5% CO2 in air. RU486 was added to the culture medium at concentrations of 1, 5, 10, and 20 micrograms/mL. Culture medium with 0.05% ethanol served as the control. In vitro growth of embryos was assessed by the following criteria: (i) two-celled stage embryo development to blastocyst stage after 72 h, (ii) morula stage grown to blastocyst stage after 24 h, and (iii) early blastocyst stage development to hatching blastocyst after 12 h, in culture. RU486 inhibited the in vitro development of two-celled embryos, morulae, and early blastocysts at concentrations of 5, 10, and 20 micrograms/mL culture medium (p less than 0.001). The inhibitory effect of RU486 at these concentrations on the development of all the stages of embryos under study was irreversible. However, RU486 did not affect embryo development at 1 microgram/mL culture medium. The study indicates the direct adverse effect of RU486 at 5 micrograms/mL and higher concentrations in culture medium on the development of mouse preimplantation embryos in vitro, and it encourages its further investigation as a postcoital contraceptive in animal models and humans.     

Viability of mouse half-embryos in vitro and in vivo

Mouse embryos at the 2-, 4-, 8-cell, and morula stage were divided in half by using microsurgical procedures and were either grown in vitro up to the blastocyst stage or transferred at the late morula stage into the uteri of pseudopregnant recipients. A relatively high percentage of the half embryos from 2-cell (70%), 4-cell (75%), 8-cell (93%), or morula stage embryos (75%) developed into blastocysts in vitro. However, the overall development in vivo of half embryos was low, as 3%, 13%, 8%, and 1% of half embryos from the 2-cell, 4-cell, 8-cell, and morula stages, respectively, developed into live fetuses. Embryos which were divided in half at different stages developed at different rates in vitro. This determined the stage of embryonic development at the time of transfer, which might have interacted with the stage of pseudopregnancy of the recipients to influence embryo survival in vivo.     

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.     

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

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

Development of 1-cell embryos from different strains of mice in CZB medium

One-cell embryos from several different strains of mice have been cultured to the blastocyst stage in CZB medium. CZB medium can be used to culture CF1 x B6SJLF1/J 1-cell embryos to the blastocyst stage provided glucose is introduced into the medium on Day 3 of culture. The amount of glucose required for embryo development was titrated using a concentration range of 5.5 to 49.5 mM. With the exception of the highest concentration, all glucose levels tested supported 65-85% development to the morula and blastocyst stages. Variations of CZB medium were tested for their ability to support the development of 1-cell embryos from 4 strains of mice. For embryos from CF1 and DBA/2J (both x B6SJLF1/J) mice, which exhibit a "2-cell block" to development in vitro, CZB medium containing glutamine with the addition of glucose on Day 3 supported optimum development from the 1-cell stage to morula and blastocysts (79% and 87%). For embryos from B6D2F1/J and CD1 female mice (both x B6SJLF1/J males), which do not exhibit a "2-cell block" to in vitro development, optimum development to morula and blastocyst stages (95% and 50%) was in CZB medium containing both glutamine and glucose from the start of culture.     

The influence of culture and transport on pretransfer development and posttransfer survival of sheep embryos

Sheep embryos were collected under sterile conditions in Dulbecco's Phosphate Buffered Saline (DPBS) + 10% Fetal Calf Serum (FCS) and cultured in DPBS + 20% FCS at 37 degrees C. They were classified according to their stage of development, from the lowest stage, 13 (less than a morula) to the highest stage, 20 (hatched blastocyst). Morphology was graded from 1 for excellent to 5 for degenerated. All embryos placed in the experiment had a development stage classification of 14 (morula) or higher and morphology classification of 1 to 3. Thirty-four embryos cultured in the laboratory for 24 h (Treatment B) and 32 embryos handled the same way except that they were transported for approximately 12 h (Treatment C) increased an average of 1.8 development classification scores and decreased -0.84 and -0.58 morphology classification scores for the two treatments, respectively. Twelve embryos in Treatment D (the same as Treatment C except that they were cultured in the laboratory for an additional 24 h) progressed 2.2 development classification scores during 48 h culture and did not change (-0.08) in the morphology classification score. The development estimates related to length of culture time but showed no affect of transport. Seventy-five percent of 20 embryos transferred in Treatment C and 42% of 12 embryos in Treatment D survived to parturition, demonstrating that the procedures used to transport and culture them for 24 and 48 h, respectively, maintained embryos capable of post transfer survival. Forty-one percent of the 22 embryos transferred in Treatment A (noncultured) and 20% of 20 embryos in Treatment B survived.     

Dihydroorotic acid dehydrogenase activity in actinomycin-D-treated and normal chick embryos

The effect of actinomycin D on chick embryos cultivated in vitro by New's culturing method was studied. Exposure of chick embryos to actinomycin D (0.05 micrograms/ml) at the primitive streak stage (stage 4; Hamburger and Hamilton) for 6 h showed interference in orotic acid formation. The assay of the enzyme dihydroorotic acid dehydrogenase was carried out in both treated and control embryos. No enzymic activity was observed in actinomycin-D-treated embryos in contrast to the considerable activity in the controls. These observations suggest an interference by actinomycin D in the biogenesis of the enzyme dihydroorotic acid dehydrogenase.     

Involvement of glycolytic metabolism in developmental inhibition of rat two-cell embryos by phosphate

To elucidate the mechanism by which phosphate induces developmental inhibition of rat 2-cell embryos, we examined the mutual effects of glucose and other glycolytic and non-glycolytic sugars, the non-metabolizable glucose analogue, and glycolytic inhibitors on the inhibitory effect of phosphate. In the absence of glucose, 30-49% of embryos treated with 10-500 microM phosphate were able to develop to morula and blastocysts. On the other hand, in the presence of 5 mM glucose, 10 microM phosphate decreased the developmental rate of 2-cell embryos to the 4-cell stage and completely inhibited the development beyond the 4-cell stage. In contrast, glucose showed no influence on development in phosphate-free medium. Similarly to glucose, the other glycolytic sugars fructose (5 mM) and mannose (5 mM) enhanced the inhibitory effect of 10 microM phosphate but had no influence in the absence of phosphate. In contrast, the non-glycolytic sugar and non-metabolizable glucose analogue N-acetylglucosamine and 3-O-methylglucose (3-O-MGlc), respectively, did not enhance the effects of phosphate. 2-Deoxyglucose (2DGlc), another glucose analogue that is non-metabolizable but is converted by hexokinase to 2DGlc 6-phosphate, at concentrations as low as 0.1 mM completely inhibited cell cycle progression of 2-cell embryos cultured in glucose-free (Glc(-)) medium with 10 microM phosphate. In contrast, in the absence of phosphate, 2DGlc at the same concentration allowed 55% of 2-cell embryos to develop to morula and blastocyst stages. Addition of an inhibitor of enolase in glycolysis, sodium fluoride (NaF), at 1 mM to the Glc(-) medium also enhanced the inhibitory effects of 10 microM phosphate, whereas 1 mM NaF in the absence of phosphate showed no inhibitory effects on the development of 2-cell embryos to morula and blastocyst stages. From these results, disturbance of glycolysis is a critical reason for the developmental inhibition caused by phosphate in early rat embryos in culture.     

Chronological appearance of spontaneous and induced apoptosis during preimplantation development of rabbit and mouse embryos

This study was undertaken to obtain specific information on the characteristics of spontaneous and induced apoptosis during preimplantation development of rabbit in vivo and in vitro developed embryos and mouse in vitro embryos. After reaching appropriate developmental stages, embryos were transferred into culture media with or without apoptotic inductor (actinomycin D 500 ng/mL) and cultured for 10 h. The identification of apoptotic cells was based on morphological assessment of nuclei and on detection of specific DNA degradation, phosphatidylserine redistribution and active caspase-3 under fluorescence microscope.Our experiments proved that apoptosis is a frequent physiological event occurring during normal preimplantation development. A high number of untreated rabbit and mouse blastocysts contained at least one apoptotic cell. Rabbit embryos showed a lower incidence of spontaneous apoptosis. Treated blastocysts of both species responded to the presence of apoptotic inductor by significant decrease in the average number of blastomeres and significant increase in the incidence of apoptotic cell death. The occurrence of spontaneous apoptosis during earlier preimplantation development was sporadic and its presence was observed only at stages following embryonic genome activation (at 4-cell stage and later in mouse, at 16-cell and morula stage in rabbit). The susceptibility of embryos at early stages to the apoptotic inductor was much lower. The presence of actinomycin D did not increase the incidence of apoptotic embryos or apoptotic cells. Nevertheless, it slowed down embryo growth and triggered earlier appearance of some apoptotic features (at the 6-cell stage in rabbit). The results show that the occurrence of both spontaneous and induced apoptosis in preimplantation embryos is stage- and species-specific.     

Incidence of chromosomal mosaicism in human embryos at different developmental stages analyzed by fluorescence in situ hybridization

Chromosomal mosaicism has been reported in in vitro-cultured embryos at early cleavage stages, as well as in morulae and blastocysts. We have assessed the incidence and pattern of mosaicism during in vitro development of human embryos from early-cleavage stages to morula and blastocyst. Fifty spare embryos were fixed for fluorescence in situ hybridization (FISH) analysis for chromosomes X, Y, 13, 18, and 21 on days 2 or 3 (4- to 10-cell stage) (n = 16), on day 4 (morula stage) (n = 14), on day 5 (pre-expanded blastocyst) (n = 5), and the expanded blastocyst stages (n = 15). Blocked embryos (no cleavage observed within the last 24 hr) were not included. A total of 2367 cells were analyzed. Four early-cleavage stage embryos were found uniformly diploid; all of the others were mosaic for the chromosomes analyzed (mean diploid nuclei 48.3% +/- 28.7). All of the embryos at more advanced developmental stages, except one fully normal morula, had mosaic chromosome constitutions, with an increase in the percentage of diploid cells in morulae, pre-expanded, and expanded blastocysts, respectively (mean diploid nuclei 78.6% +/- 11.7, 66.0% +/- 20.8, 79.6% +/- 12.8), in comparison with earlier stages. Hypotheses about the origin of mosaicism and embryo regulation mechanisms will be discussed.     

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

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

In vitro development of DNA-injected embryos co-cultured with goat oviduct epithelial cells in Korean native goats (Capra hircus aegagrus)

In vitro development of Korean native goat embryos was investigated in 2 different culture systems with and without goat oviduct epithelial cells (GOEC). Estrus was synchronized by inserting intravaginal progestagen-impnegnated sponge (Veramix) containing 60 mg medroxyprogesterone acetate (MAP) for 14 d. Superovulation was induced with follicle stimulating hormone (FSH). Goat ova were surgically obtained by retrograde flushing the oviducts of does at 66 to 68 h after MAP removal. Mean number of recovered ova per doe was 7.28 +/- 3.91, and the proportion of fertilized embryos in recovered ova was 66.5% (121/182 ). Fertilized embryos were cultured for 9 d in CR1aa medium supplemented with 10% estrous goat serum (EGS) at 38.5 degrees C, 5% CO(2) in air. There was no difference in development of the embryos to the morula stage between the 2 culture systems (84.4 and 84.0%, respectively). However, developmental rate to blastocysts (65.6%) of the embryos co-cultured with GOEC was significantly higher than of those (12.0%) cultured without GOEC (P < 0.001). Goat zygotes were injected with bovine beta-casein/human lactoferrin cDNA fusion gene (pBL1). When the DNA-injected embryos were co-cultured with GOEC, developmental rates of the embryos to the morula and blastocyst stages were 82.9 and 36.6%, respectively. The results obtained in this study indicate that "blocking" of in vitro development of Korean native goat embryos appears to occur at the morula stage, but can be overcome to some extent by co-culture with GOEC. In the co-culture system, DNA-injected goat embryos could successfully develop to normal hatching blastocysts.     

Intercellular communication in in vivo- and in vitro-produced bovine embryos.

In vivo bovine embryos were obtained by nonsurgical flushing of uterine horns of cows submitted to superovulatory treatment, while in vitro embryos were generated from oocytes collected from slaughtered donors. Lucifer Yellow injected into single blastomeres did not diffuse into neighboring cells until the morula stage in in vivo embryos and the blastocyst stage in in vitro embryos. In both cases diffusion was limited to a few cells. In contrast, diffusion was extensive in microsurgically isolated inner cell mass (ICM) but absent in the trophectoderm (TE). At the blastocyst stage, diffusion was always more extensive in in vivo than in in vitro embryos. Ultrastructural analyses confirmed these functional observations, and gap junction-like structures were observed at the blastocyst stage. These structures were diffuse in the ICM of in vivo embryos, scarce in the ICM of in vitro embryos and in the TE of in vivo embryos, and not observed in the TE of in vitro embryos. Blastomeres at all stages of development from the 2-cell stage to the blastocyst stage in in vitro embryos and at the morula and blastocyst stage in in vivo embryos were electrically coupled, and the junctional conductance (Gj) decreased in in vitro embryos from 4.18 +/- 1.70 nS (2-cell stage) to 0.37 +/- 0.12 nS (blastocyst stage). At each developmental stage, in vivo embryos showed a significantly (P < 0. 05) higher Gj than in vitro-produced embryos. Moreover, a significantly (P < 0.01) higher Gj was found in isolated ICM than in the respective blastocyst in both in vivo- and in vitro-produced embryos (3.5 +/- 1.4 vs. 0.7 +/- 0.3 and 2.6 +/- 1.6 vs. 0.37 +/- 0. 12 nS, respectively). The electrical coupling in absence of dye coupling in the early bovine embryo agrees with observations for embryos from other phyla. The late and reduced expression of intercellular communicative devices in in vitro-produced embryos may be one of the factors explaining their developmental low efficiency.     

Achromosomal Division of Early Starfish Embryos Cultured in the Presence of Actinomycin D

Embryos of the starfish Asterina pectinifera were examined for their ability to undergo the early events of embryonic development in the presence of actinomycin D, a most widely used inhibitor of RNA synthesis. Fertilized eggs continued to divide eight or nine times in the presence of 25 μg ml⁻¹actinomycin D, although delay of development was observed. Chromatin disintegrated in the blastomeres of actinomycin D-treated embryos specifically at the 32-cell stage and the nucleus was undetectable at later stages. Before the 32-cell stage, RNA synthesis was not affected by the presence of actinomycin D whereas DNA synthesis was severely inhibited. The stage when achromosomal divisions cease and embryos begin to die corresponds to the period just before onset of blastulation, suggesting that the presence of the nucleus and chromosomes is a prerequisite for blastula formation and development beyond the 512-cell stage in this species.     

In vitro development of day-2 equine embryos co-cultured with oviductal explants or trophoblastic vesicles

This study compared the in vitro development of Day-2 equine embryos co-cultured with either trophoblastic vesicles or oviductal explants. Embryos were collected surgically from the oviducts of pony mares 2 d after ovulation and assessed for stage of development. Culture medium was Ham's F12 and Dulbecco's Modified Eagle's Medium (50:50 v/v) in a humidified atmosphere of 5% CO(2) in air at 38.5 degrees C with either trophoblastic vesicles or oviductal explants. The quality score of embryos was assessed daily. After 4 d in culture, embryos were stained (Hoechst 33342) and evaluated with epifluorescence to determine the number of nuclei present. Six of seven embryos co-cultured with oviductal exmplants developed to the morula/blastocyst stage, while four of seven embryos co-cultured with trophoblastic vesicles developed to the morula stage. More (P = 0.1) embryos co-cultured with oviductal explants reached the blastocyst stage than embryos co-cultured with trophoblastic vesicles (3 7 vs 0 7 , respectively). The number of cells was higher (P = 0.1) for embryos co-cultured with oviductal explants than for embryos co-cultured with trophoblastic vesicles (162.6 +/- 32 vs 87.3 +/- 28, respectively). The number of cells for embryos co-cultured with either oviductal explants or trophoblastic vesicles appeared to be lower than for embryos matured in vivo that were recovered from the uterus at Day 6 (378, 399, >1000). The co-culture of early equine embryos in a completely defined medium with either trophoblastic vesicles or oviductal explants can support development to at least the morula stage. The co-culture of embryos with oviductal explants resulted in superior development of four-to eight-cell embryos, as indicated by the proportion that reached the blastocyst stage and by the number of cells.     

In vitro and in vivo development of bovine embryos from zygotes and 2-cell embryos microinjected with exogenous DNA

The objectives of these experiments were: 1) to determine an effective culture method for production of transferable bovine embryos following exogenous DNA microinjection; 2) to determine the effect of these methods on the ability of the injected zygotes and 2-cell embryos to develop in vivo; and, 3) to compare development of embryos microinjected as zygotes or 2-cell embryos. DNA fragments encoding bovine growth hormone (bGH), bGH-10Delta6, and a bGH antagonist, bGH-M8 (5) were used. A total of 639 zygotes and 153 2-cell embryos were injected. Zygotes and 2-cell embryos microinjected with bGH-M8 were incubated for 6 days in oviducts of intermediate recipients (rabbits or sheep) or co-cultured in vitro with bovine oviduct epithelial cells. Zygotes and 2-cell embryos microinjected with bGH-10Delta6 were co-cultured in vitro only. The most effective method for the production of transferable bovine embryos following exogenous DNA microinjection was via in vitro co-culturing with bovine epithelial cells. For example, 32.3% of the bGH-M8 and 33.5% of the bGH-10Delta6 microinjected zygotes reached the morula/blastocyst stage while 48.4% and 63.0% of the 2-cell embryos injected with bGH-M8 and bGH-10Delta6, respectively, developed to the morula/blastocyst stage. The percentage of blastocysts obtained for control, non-injected zygotes and 2-cell embryos was 34.5% and 69.6%, respectively. The developmental rate to the morula/blastocyst stage was approximately 20% greater for embryos obtained from microinjected 2-cell embryos relative to microinjected zygotes. However, there was no significant difference in pregnancy rates following transfer of these blastocysts to cow uteri.