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

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

Influence of the duration of gamete interaction on cleavage,growth rate and sex distribution of in vitro produced bovine embryos

Various factors including the length of gamete interaction and embryo culture conditions are known to influence the rate of development and sex ratio of mammalian embryos produced in vitro. While the duration of gamete interaction deemed optimum would vary depending upon the species involved and the preferred sex in the outcome of in vitro procedures, the mechanisms favoring the selection of embryos of one sex over the other, or the exact time of post-fertilization stage at which a sex-related difference in growth rate is manifested, are not fully understood. In order to determine the optimum length of gamete co-incubation and the impact of male gamete 'aging' on the growth rate and sex ratio of bovine embryos, a series of experiments was carried out using in vitro matured (IVM) oocytes. In experiment 1, IVM oocytes were co-incubated with sperm from two different bulls for 6, 9, 12 and 18 h and the presumptive zygotes were cultured for approximately 7.5 days (178-180 h post-insemination (hpi)) prior to assessing the cleavage rate, blastocyst yield and the sex ratio of blastocysts in each co-incubation group. In experiment 2, the blastocysts obtained from different co-incubation groups were subjected to differential staining to determine the total cell number (TCN) and the proportion of cells allocated to the inner cell mass (ICM) in male and female embryos to test for sex-related differences in cell proliferation or in differentiation of the two embryonic cell lineages in the blastocysts. In experiment 3, IVM oocytes co-incubated for 6, 9, 12 and 18 h with sperm from a single bull, were cultured for 3 days (72 hpi) and the pre-morulae, categorized according to the specific stage of early development, were sexed to determine if a sex-dependent difference is detectable before the blastocyst stage. In experiment 4, IVM oocytes exposed to prolonged co-incubation (18 and 24 h) were compared with those co-incubated with "aged" (pre-incubated) sperm to determine if "aging sperm" is a factor affecting the growth rate and sex ratio of the out come. Our experiments showed that (1) the shortest period (6 h) allowed the highest proportion of cleaved oocytes to reach the blastocyst stage regardless of the semen donor, (2) males out number females (over 2 to 1) among blastocysts when co-incubation of gametes is reduced to 6 h, (3) the male blastocysts display higher total cell count, and (4) the faster growth rate of the male embryos does not affect the early differentiation and allocation of cells to the ICM. Furthermore, our results indicate that the disruption of the expected 1:1 ratio for male and female embryos in the short term co-incubation group is evident as early as the 4-cell stage and peaks at the 8-cell stage and that prolonged gamete interaction tends to reduce the blastocyst yield to even out the sex ratio. Absence of a significant effect on the yield and sex ratio of blastocysts in the prolonged co-incubation groups irrespective of the type of sperm (aged versus non-aged) used suggest that the preponderance of male embryos in short term gamete interaction group may be dependent upon the in vitro advantage of the Y-chromosome bearing sperm. This advantage, manifested in the precocious development during the pre-morulae stage is confined to a short duration that is neutralized when gamete interaction is allowed to proceed beyond 6h.     

A paucity of structural integrity in cloned porcine blastocysts produced in vitro

The structural integrity of blastocyst stage embryos, consisting of the inner cell mass (ICM) and trophectoderm (TE) cells, is a prerequisite for normal development after implantation in mammals. In this study, allocation of nuclear transfer (NT)-derived porcine blastocysts to the ICM and to the TE cells was examined and compared with IVF- and in vivo-derived embryos. NT-derived embryos had a lower developmental competence to the blastocyst stage than IVF-derived embryos (P < 0.05). Total cell number of NT-derived blastocysts was inferior to that of IVF-derived embryos (P < 0.05), although no difference was detected between the two groups in the ratio of ICM to total cells. However, in vivo-derived blastocysts had a higher proportion of ICM to total cells compared with in vitro-produced embryos (P < 0.01). To investigate what proportions of in vitro-produced porcine embryos represent normal structural integrity, differentially-stained blastocysts were individually classified into three presumptive groups (I: <20%; II: 20-40%; III: >40%) according to the ratio of ICM to total cells. Low proportions of NT- (12.5%, 7/56) and IVF-derived blastocysts (15.8%, 9/57) were assigned to Group II, presumptively having a normal range of structural integrity, whereas, almost all in vivo-derived embryos (97.5%, 39/40) were allocated to Group II. In conclusion, limited structural integrity may lead to the poor survival to term of NT- or IVF-derived porcine embryos produced in vitro.     

Growth retardation of inner cell mass cells in polyspermic porcine embryos produced in vitro

The in vitro viability of polyspermic pig eggs was investigated. Immature oocytes were matured and fertilized in vitro. Approximately 10 h after insemination, the eggs were centrifuged at 12 000 x g for 10 min and individually classified into two (2PN)- and poly-pronuclear (PPN, 3 or 4 pronuclei) eggs. The classified eggs were cultured in vitro or in vivo. Nuclei numbers of inner cell mass (ICM) and trophectoderm (TE) were compared between 2PN- and PPN-derived blastocysts. The frequency of development in vitro of 2PN and PPN eggs to the blastocyst stage was 53.6% and 40.7%, respectively. The mean number (8.2 +/- 0.7, n = 48) of ICM nuclei of 2PN-derived blastocysts was higher than that (4.2 +/- 0.8, n = 37) of PPN-derived blastocysts (p < 0.001), whereas there was no difference (p > 0.05) in mean numbers of total (46.7 +/- 3.4 vs. 39. 9 +/- 3.9) and TE nuclei (38.5 +/- 2.9 vs. 35.7 +/- 3.3) between the two groups. Development of 2PN and PPN eggs cultured in vivo to the blastocyst stage was 33.3% and 27.4%, respectively. The numbers of ICM and TE nuclei of these embryos cultured in vivo showed a pattern similar to that for the in vitro-produced blastocysts. Additionally, fetuses were obtained on Day 21 from both the 2PN and the PPN groups. This suggests that polyspermic pig embryos develop to the blastocyst stage and beyond, although showing a smaller ICM cell number as compared to normal embryos.     

In vitro fertilization and development of llama (Lama glama ) oocytes using epididymal spermatozoa and oviductal cell co-culture

A study was designed to determine the feasibility of developing in vitro maturation, fertilization and culture systems utilizing follicular oocytes and epididymal spermatozoa collected from llamas at slaughter. From a total of 1324 cumulus oocyte complexes (COCs) recovered, 972 were cultured in 50-ul drops of TCM-199 medium with 10% heat inactivated steer serum (DBS) and hormones for 30 h. After maturation, the oocytes were randomly allocated into 4 groups in a 2x2 factorial design: cumulus-enclosed oocytes, 2 ug/ml heparin (Group 1); cumulus-enclosed oocytes, 5 ug/ml heparin (Group 2); denuded oocytes, 2 ug/ml heparin (Group 3); and denuded oocytes, 5 ug/ml heparin (Group 4). Denuded oocytes were obtained for groups 3 and 4 by vortexing. Epididymides were also collected at slaugther and fresh spermatozoa (for each replicate) were obtained by mincing the cauda epididymis with a scalpel blade. A total of 721 oocytes were inseminated with 2-3 x 10(6) epididymal spermatozoa/ml in a 50-ul drop of FERT-TALP medium. After 18 h of in vitro insemination, 234 oocytes were placed in a llama oviductal epithelial cell (LLOEC) co-culture in TCM-199 for 9 d. All cultures were done at 38.5 degrees C under 5% CO(2) in air with high humidity. The rate of fertilization, initial cleavage and development in co-culture were evaluated and compared. Of 192 oocytes examined for signs of fertilization, 56 (29.2%) were penetrated by spermatozoa with 57.1% (32 56 ) of the penetrated oocytes having a male and female pronucleus. There were no differences among treatment groups in total fertilization. However, the frequency of oocytes fertilized normally tended to be higher in the denuded oocytes 67.7% (21 31 ) than the oocytes inseminated with cumulus cells 44.0% (11 25 ) independent of heparin concentration (P<0.06). The total embryo development rate to the 2 cells to blastocyst stage was 32.1% (75 234 ). There was no difference in development rate between groups. From the 234 oocytes co-cultured in LLOEC for 9 d, 15.8% developed into 2 to 16 cells, 5.6% into morulae, 6.0% into early/expanded blastocysts and 4.7% into hatching/hatched blastocysts. The results indicate that an in vitro fertilization system is possible in the llama utilizing slaughterhouse material and that llama oocytes can be fertilized in the presence of heparin and epididymal spermatozoa.     

The effects of soluble products of activated lymphocytes and macrophages on blastocyst implantation events in vitro

The purpose of this study was to investigate the effects of soluble products of activated lymphocytes and macrophages on mouse blastocyst attachment and trophoblast outgrowth in vitro. Hatched blastocysts were incubated with medium alone, supernatant fluids from mixed lymphocyte cultures (MLC), and with individual human and murine lymphokines and monokines in fibronectin-coated wells. Cultures were assessed at 24, 48, and 72 h for blastocyst attachment and trophoblast outgrowth. Both human and murine MLC supernatant fluids significantly enhanced trophoblast outgrowth in vitro. The cytokine, interleukin-1 beta (Il-1 beta), at a concentration of 10(3) U/ml, inhibited blastocyst attachment but significantly enhanced trophoblast outgrowth of attached blastocysts. Granulocyte, macrophage-colony-stimulating factor (GM-CSF) at a concentration of 250 U/ml significantly inhibited blastocyst attachment, while gamma interferon (gamma-IFN) at a concentration of 2.5 x 10(3) U/ml significantly inhibited trophoblast outgrowth and caused degenerative morphological changes in these cells. The results of this study indicate that products of activated immune cells may either facilitate or impede implantation events depending on the types of predominant cytokines present, their concentration(s), and the timing of their secretion relative to embryonic development.     

The effects of follicular fluid on in vitro maturation, oocyte fertilization and the development of bovine embryos

We determined the effects of follicular fluid in the maturation medium on bovine oocyte maturation, fertilization and subsequent development, as well as on the number of cells in blastocysts following culture. Fluid and oocytes from bovine follicles less than 5 mm in diameter were collected from the ovaries of slaughtered cows. For the maturation medium, follicular fluid at concentrations of 10, 30 or 60% (v/v) was added to Medium 199 with Earle's salts supplemented with 0.1 microg/ml estradiol-17 beta (E(2), Experiment 1) or 0.1 microg/ml E2 and 100 IU/ml hCG (Experiment 2). The control medium contained polyvinylpyrrolidone (PVP; 3 mg/ml) instead of follicular fluid. After maturation for 24 h, oocytes were fertilized in vitro with bull frozen-thawed spermatozoa and cultured on a monolayer of granulosa cells for 9 d. There were no differences in maturation or fertilization rates of oocytes. In Experiment 1, maturation medium containing 10% follicular fluid did not affect the developmental rate of the oocytes to > 2-cell, 8 to 16-cell, blastocyst and hatched blastocyst stage embryos, respectively; whereas 60% decreased embryonic development (P < 0.05) compared with the control. Blastocysts and hatched blastocysts developed from fertilized oocytes which had been matured in medium containing 10 and 30% follicular fluid/E(2) had more cells than the controls (P < 0.01). In Experiment 2, maturation medium containing 10 or 30% follicular fluid did not affect the development fertilized oocytes to the blastocyst stage compared with the control, but decreased at 60% (P < 0.01). There were no differences in the number of cells from Day 9 blastocysts and hatched blastocysts from fertilized oocytes matured in maturation medium containing follicular fluid and E(2) + hCG. The results of these experiments suggest that the addition of bovine follicular fluid to the maturation medium enhances the cell numbers in blastocysts from bovine follicular oocytes matured in vitro.     

Beneficial effects of dithiothreitol on relative levels of glutathione S-transferase activity and thiols in oocytes, and cell number, DNA fragmentation and allocation at the blastocyst stage in the mouse

We analyzed the effect of in vitro aging of mouse oocytes in the presence of dithiothreitol (DTT) on relative levels of glutathione S-transferase (GST) activity and thiols in oocytes, and cell number, DNA fragmentation and cellular allocation to the inner cell mass (ICM) and trophectoderm (TE) lineage at the blastocyst stage. Ovulated oocytes from gonadotropin primed hybrid female mice of 6-8 weeks of age were aged in vitro in the presence of 0, 5, 50, or 500 microM DTT for 6 hr prior to insemination. Relative levels of GST activity and thiols in oocytes were determined by confocal laser scanning microscopy, DNA fragmentation using a single-step TUNEL method, and cell allocation to the ICM and TE lineage by blastocyst staining with propidium iodide and Hoechst 33258. Non-aged oocytes exhibited higher relative levels of GST activity and thiols when compared to oocytes aged in the presence of 0, 5, and 50 microM DTT. Day 5 blastocysts from the 5, 50, and 500 microM DTT groups exhibited higher total number of cells, number of ICM cells, and ICM/TE ratio, but lower percentage of number of nuclei with DNA fragmentation/number of ICM cells than blastocyst from the 0 microM DTT group. These data show that DTT counteracts the negative effects of a post-ovulatory aging of mouse oocytes in vitro on relative levels of GST activity and thiols in oocytes, and percentage of number of nuclei with DNA fragmentation/number of ICM cells, total number of cells, number of ICM cells and ICM/TE ratio in Day 5 blastocysts.     

In vitro deveropment of porcine oocytes fertilized in vitro with spermatozoa preincubated in two different media

This study was conducted to clarify the effects of sperm concentration and media during preincubation on fertilization and development of porcine oocytes fertilized in vitro (IVF). The effect of porcine oviduct epithelial cell aggregates (POECA) on in vitro development of IVF embryos was also examined. Oocytes matured in vitro for 48 to 50 h were inseminated with epididymal spermatozoa preincubated at 2 sperm concentrations (1 - 2 x 10(8)/ ml vs 4 - 5 x 10(8)/ ml) for 3 h in either Dulbecco's phosphate buffered saline (PBS) or Brackett and Oliphant medium (BO). For capacitation, spermatozoa were treated with heparin (100microg / ml) for 15 min at 38.5 degrees C under 5% CO(2) in air. Cleavage and development to the blastocyst stage were evaluated on Day 3 and Day 8 after culture with or without POECA. The effect of sperm concentration on preincubation did not affect the fertilization rate, but preincubation in PBS medium did result in a higher fertilization rate (P < 0.05) than did the BO medium. The proportion of embryos undergoing cleavage and development to the blastocyst stage was significantly higher (P < 0.05) in the POECA co-culture group than in the group without POECA co-culture. The present results indicate that PBS medium can be utilized as a simple preincubation medium for porcine spermatozoa and that the presence of POECA during in vitro culture improved the development of IVF oocytes to the blastocyst stage.     

Factors affecting the in-vitro development to blastocysts of bovine oocytes matured and fertilized in vitro

The effects of media (TCM199 vs. synthetic oviduct fluid, SOF), sera (foetal calf serum, FCS vs. human serum, HS), gas atmosphere (5% CO2 in air vs. 5% CO2, 5% O2 and 90% N2) and coculture with bovine oviduct epithelial cells (cells vs. no cells) on the in-vitro development of in-vitro matured and fertilized bovine oocytes were examined. Immature oocytes surrounded with compacted cumulus cells were cultured for 24 h in TCM199 supplemented with 10% FCS, 10 micrograms follicle-stimulating hormone (FSH)/ml and 10 micrograms luteinizing hormone (LH)/ml, 1 microgram oestradiol/ml, and 1 x 10(6) granulosa cells at 39 degrees C under 5% CO2 in air. In-vitro fertilization was performed with frozen-thawed, heparin-treated (100 micrograms/ml, 15 min) spermatozoa from 2 bulls. Oocytes were incubated with 2.5 x 10(6) spermatozoa/ml for 24 h and then cultured in one of 16 treatments for 7 days. Cleavage (2-8-cell) and development to blastocysts were recorded on Days 2 and 7, respectively, after the start of culture. SOF was superior to TCM199 for cleavage (P less than 0.01), development to blastocysts (P less than 0.001) and for proportion of cultured ova resulting in blastocysts with at least 60 or at least 100 nuclei (P less than 0.001). FCS was superior to HS for development to blastocysts (P less than 0.001) and 5% oxygen was superior to air for the proportion of ova reaching at least 60 cells (P less than 0.01). For cleavage and development to blastocysts, there was an interaction between serum and cells (P less than 0.01). In the presence of cells, ova preferred FCS, in their absence, serum had little effect.(ABSTRACT TRUNCATED AT 250 WORDS)     

Development of embryos after in vitro fertilization of bovine oocytes with sperm from either yaks (Bos grunniens) or cattle (Bos taurus)

The objectives of this study were to investigate differences in fertilization and development of embryos after in vitro fertilization of Bos taurus (cow) oocytes with sperm from either yaks (Bos grunniens) or Holstein bulls. Frozen-thawed spermatozoa (Holstein n=5 sires; yak n=5 sires) were evaluated for motility (forward progression) and acrosomal status immediately post-thaw and then 1, 2, 3, and 8h later. In vitro-matured cow oocytes (n=1652) were inseminated with either Holstein bull or yak spermatozoa and after an 18-h co-incubation period, a proportion of the oocytes were fixed and examined for sperm penetration, polyspermy, and male pronuclear formation. The remaining oocytes were cultured in vitro and evaluated for cleavage and blastocyst production rates. Overall, there were species differences (P<0.05) and an effect of time (P<0.01) in sperm motility and acrosome integrity. An effect (P<0.01) of a species-by-time interaction was detected for motility, but not for acrosome integrity. The percentage of oocytes penetrated and the formation of two pronuclei when cow oocytes were inseminated with yak spermatozoa (97.4% and 81.6%, respectively) were greater (P<0.01) than that achieved with Holstein bull spermatozoa (77.8% and 65.9%, respectively), but the incidence of polyspermy (>2 pronuclei) was similar (P>0.05; 10.8% vs. 15.8%). The yak male symbolxcow combination gave a higher cleavage rate than the Holstein male symbolxcow combination (P<0.05; 76.3% vs. 63.3%), but there was no difference in the blastocyst rate (17.9% vs. 14.5%). It is concluded that yak spermatozoa could successfully fertilize cattle oocytes and their hybrid embryos had normal competence to develop to blastocysts.     

Influences of epidermal growth factor and insulin-like growth factor-I on bovine blastocyst development in vitro

Experiments were carried out to investigate putative beneficial effects of adding epidermal growth factor (EGF) or insulin-like growth factor-I (IGF-I) for bovine embryo culture in chemically defined media. Presumptive zygotes (18 h post-insemination) were randomly assigned to culture treatments. In experiment 1, treatments involved additions of recombinant human EGF to provide concentrations of 0 ng (control), 1, 5, and 25 ng/ml. No differences were seen in numbers of 4-cell stage embryos between groups. A concentration of 5 ng/ml EGF but not 1 or 25 ng/ml during embryo culture improved percentages of 4-cell stage embryos reaching blastocysts compared to the control (P<0.05). Numbers of inner cell mass (ICM) cells and trophoblast cells of day 8 blastocysts were similar for the control and 5 ng/ml EGF-treated groups. In experiment 2, culture with recombinant human IGF-I in concentrations of 0 ng (control), 2, 10, and 50 ng/ml resulted in no differences in numbers of 4-cell stage embryos between groups. When compared to controls, IGF-I treatments at 10 and 50 ng/ml improved proportions of 4-cell stage embryos that reached blastocysts (P<0.05). In experiment 3, numbers of ICM cells of day 8 blastocysts were significantly higher after being cultured with 50 ng/ml of IGF-I compared to those of the controls (P<0.05). No additive effect of combining EGF (5 ng/ml) and IGF-I (50 ng/ml) was seen when results were compared to those following supplementation of the media with either EGF or IGF-I alone. In conclusion, both EGF and IGF-I could independently enhance bovine preimplantational development in chemically defined media and IGF-I but not EGF may play a mitogenic role during early bovine development.     

Morphological development,cell number,and allocation of cells to trophectoderm and inner cell mass of in vitro fertilized and parthenogenetically developed buffalo embryos: The effect of IGF-I

The morphology and number of cells in the trophectoderm (TE) and inner cell mass (ICM) of buffalo blastocysts derived from in vitro fertilization and cultured in the presence or absence of insulin-like growth factor-I (IGF-I) were analyzed by differential fluorochrome staining technique. The total cell number (TCN), TE number, and ICM cell number were significantly higher in blastocysts developed in vitro in the presence of IGF-I as compared to blastocysts developed without IGF-I (P < 0.01). It was observed that the buffalo blastocyst took 5–9 days postfertilization to develop in vitro. In order to correlate the time required for blastocyst development and the allocation of cells to TE and ICM, blastocysts were designated as fast (developing on or before day 7) or slow (developing after day 7). The TCN, TE, and ICM cells of fast-developing blastocysts cultured in the presence of IGF-I were significantly higher than slow-developing blastocysts (P < 0.01). The blastocysts developed on day 6 had a mean total cell number 118.6 ± 21.4, which significantly decreased to 85.6 ± 17.4, 62.0 ± 14.5, and 17.0 ± 4.0 on days 7, 8, and 9, respectively (P < 0.05). Normal development of buffalo embryo showed that, on average, embryos reached compact morula stage at the earliest between days 4.5–5.5. Blastocysts developed, at the earliest, between days 5.0–6.0, and it took them, on average, 6.5 days to hatch from the zona pellucida. TCN, TE, and ICM increased three times from morula to blastocyst; however, the proportion of ICM to TCN remained the same, in both embryonic stages. TE approximately doubled in hatched blastocysts, as compared to unhatched blastocysts (P < 0.05). However, ICM cells were decreased. The time required for development of parthenogenetic blastocysts was observed to be greater as compared to in vitro fertilized (IVF) blastocysts. The total cell number of parthenogenetic blastocysts was 100.8 ± 11.3, including 59.2 ± 8.4 cells of TE and 42.1 ± 6.9 cells of ICM. © 1996 Wiley-Liss, Inc.     

Effects of sera, hormones and granulosa cells added to culture medium for in-vitro maturation, fertilization, cleavage and development of bovine oocytes

Sera (fetal calf serum: FCS; and oestrous cow serum: ECS), hormones (2.5 FSH micrograms/ml + 5 micrograms LH/ml + 1 microgram oestradiol/ml) and granulosa cells (5 x 10(6)/ml) were added to culture medium to determine the frequencies of in-vitro maturation, fertilization, cleavage (2- to 8-cell) and development into blastocysts of bovine follicular oocytes. The maturation rates after 24 h in culture were not significantly different among the three factors tested (56-72%). The fertilization rates were significantly affected by serum type and the addition of granulosa cells. FCS gave significantly higher rates of fertilization (57-71%) than did ECS (34-52%), but the proportions of polyspermic fertilization were significantly higher in the former (8-19%) than in the latter (2-3%). The addition of hormones did not affect fertilization, cleavage and development. Neither type of serum affected cleavage and development. The highest rates of blastocyst formation were obtained when granulosa cells alone were added (FCS, 17%; ECS, 16%). The cell numbers of the blastocysts obtained were 100-150, similar to those of blastocysts developed in vivo. Transfer of 6 blastocysts to 3 cows resulted in 1 pregnancy. The present results indicate that the co-culture with granulosa cells is the most important factor for in-vitro fertilization to development into blastocysts of bovine oocytes matured in vitro.     

Postimplantation development of mitomycin C-treated mouse blastocysts

Treatment of morula-stage mouse embryos with mitomycin C (0.004-0.5 microgram/ml) in vitro resulted in a decrease in the number of inner cell mass (ICM) cells at the blastocyst stage. The trophectoderm population was reduced only at the highest dosage (0.5 microgram/ml) tested. Postblastocyst development in vitro was retarded: Fewer embryos formed trophoblastic outgrowth, and the ICM was poorly developed. The embryo transfer experiments demonstrated that a reduction in ICM cell numbers diminished the potential of embryogenesis. The presence of a sufficient number of trophoblasts and ICM cells in the blastocyst is therefore a prerequisite for successful implantation and embryogenesis. The mitomycin-treated blastocysts with only 70% of normal ICM cells developed to egg cylinders that were about half normal size, but by days 12-14 the body size of the surviving embryo was similar to that of the control embryo. Morphogenesis was retarded during the early organogenesis stages, but only a slight delay was seen in the treated embryo on day 12. Such observation strongly suggests that a restorative phase of growth and morphogenesis has occurred during the immediate postimplantation period.     

Developmental changes in the incidence of chromosome anomalies of bovine embryos fertilized in vitro.

In total, 196 two- to 32-cell bovine embryo and 104 blastocysts were obtained by the in vitro fertilization of follicular oocytes matured in vitro, and 15 blastocysts fertilized in vivo were used. Chromosomal anomalies in these embryos and the inner cell mass (ICM) separated immunologically were investigated. Chromosomal anomalies were observed in 12.1% (5/41) of 2-cell embryos, 20.0-36.4% of 4- to 16-cell embryos, 7.1% (1/14) of 17- to 32-cell embryos, 44.2% (15/34) of blastocysts, and 18.6% (13/70) of ICM cells derived from in vitro fertilization. These anomalies were mainly 3N and 4N at 2-cell stage, 1N and 1N/2N at 4- to 32-cell stages, and 2N/4N in blastocysts and in their ICM cells. Chromosomal anomalies of blastocysts from in vivo fertilization and their ICM were observed in 20.0% (1/5) of blastocysts and 33.3% (3/9) of ICM cells and these compositions were mainly 2N/4N. These results indicate that the abnormalities at early and blastocyst stages of embryos derived from in vitro fertilization were caused by abnormal fertilization in vitro and abnormal cleavage, respectively. Furthermore, a definite location of the chromosomal anomalies was observed in the trophectoderm of blastocysts derived from in vitro fertilization.     

Expression of a reporter gene after microinjection of mammalian artificial chromosomes into pronuclei of bovine zygotes.

The introduction of mammalian artificial chromosomes (ACs) into zygotes represents an alternative, more predictive technology for the production of recombinant proteins in transgenic animals. The aim of these experiments was to examine the effects of artificial chromosome microinjection into bovine pronuclei on embryo development and reporter gene expression. Bovine oocytes aspirated from 2-5 mm size follicles were matured in vitro for 22 hr. Mature oocytes were fertilized in vitro with frozen- thawed bull spermatozoa. Artificial chromosome carrying either beta-galactosidase (Lac-Z) gene or green fluorescence protein (GFP) gene were isolated by flow cytometry. A single chromosome was microinjected into one of the two pronuclei of bovine zygotes. Sham injected zygotes served as controls. Injected zygotes were cultured in G 1.2 medium for 7 days. Hatched blastocysts were cultured on blocked STO cell feeder layer for attachment and outgrowth of ICM and trophectoderm cells. The results showed a high zygote survival rate following LacZ-ACs microinjection (74%). However, the blastocyst development rate after 7 days of culture was significantly lower than that of sham injected zygotes (7.5 vs. 22%). Embryonic cells positive for Lac-Z gene were detected by PCR in three of nine outgrowth colonies. In addition, GFP gene expression was observed in 15 out of 85 (18%) embryos at the arrested 2-cell stage to blastocyst stage. Six blastocysts successfully outgrew, three outgrowths were GFP positive for up to 3 weeks in culture. We conclude that the methodology for artificial chromosome delivery into bovine zygotes could lead to viable blastocyst development, and reporter gene expression could be sustained during pre-implantation development.     

Effect of culture system on survival rate of vitrified bovine embryos produced in vitro

This study was designed to evaluate the effect of in vitro culture system on bovine blastocyst yield and quality after vitrification. In Experiment 1, IVM/IVF zygotes were allocated to three culture conditions: (I) Oviductal cells-SOF (OCM-SOF); (II) Oviductal cells-TCM (OCM-TCM); and (III) SOF for 8 days. There was no significant difference between blastocyst rates among groups.In Experiment 2, the IVP-blastocysts in three above culture conditions were vitrified within groups segregated according to age (Day 7 and 8) and blastocoelic cavity size (early and expanded blastocysts). A trend of higher survival rate was obtained in vitrified/warmed early blastocysts compared with expanded ones, so that the difference in OCM-TCM group was significant (P < 0.001). Higher survival and hatching rates (P < 0.001) were obtained in OCM-SOF and OCM-TCM groups (co-culture) compared with SOF group and the age of blastocyst had no effect on post-thaw survival and hatching rates. In Experiment 3, after staining of blastocysts, in fresh blastocysts the highest number of trophectoderm cells was observed in OCM-TCM group and the number of inner cell mass (ICM) was higher in co-culture groups than SOF group (P < 0.001). In vitrified/warmed blastocysts the number of ICM and trophectoderm cells in co-culture groups was higher than SOF group (P < 0.001) except for the ICM of expanded blastocysts. In conclusion, in our culture conditions, the blastocyst yield is not influenced by culture system, while the cryotolerance of IVP-blastocysts is positively influenced by the presence of somatic cells. Moreover, the expanded blastocysts are more susceptible to cryoinjury than early blastocysts.     

The influence of extracellular matrix components on the proliferation and migration of inner cell mass-derived parietal endodermal cells.

Reichert's membrane is a basement membrane deposited on the inner surfaces of rat and mouse trophectodermal (TE) cells beginning at the blastocyst stage of embryonic development that may play a role in the migration of the parietal endodermal (PE) cells to form an inner lining to the TE. The abilities of various glycoproteins present in Reichert's membrane to support PE cell migration and replication in vitro were examined by isolating inner cell masses (ICMs) from Day 5 rat blastocysts (Day 1 = day of vaginal plug) and culturing them (24-72 h) either on surfaces that had been precoated with collagen IV, fibronectin, or laminin or on thin (1-2-mm) gels of Matrigel (a tumor cell-derived basement membrane preparation) or type I collagen. Time-dependent changes in the area occupied by each ICM on the culture surface and the number of migrating cells per ICM were quantified by morphometric analysis. Type IV collagen, the basement membrane-specific collagen, supported ICM attachment and the outward migration (overall increase of approx. 60-fold in mean ICM area occupied on the culture surface) and proliferation (cell doublings following every 24 h of culture) of laminin-containing PE-like cells. These effects were not altered by the inclusion of exogenous fibronectin or laminin in the culture medium. Collagen IV coating concentrations as low as 0.16 micrograms/ml supported PE cell attachment and migration, and maximal responses were seen with a coating concentration of 0.63 micrograms/ml.(ABSTRACT TRUNCATED AT 250 WORDS)     

TGFalpha and EGFR in ovine preimplantation embryos and effects on development

The present study aimed to assess location and relative amounts of transforming growth factor alpha (TGFalpha) and its receptor (EGFR) in ovine oocytes and preimplantation embryos by using immunohistochemical technique that was graded on a relative scale of 0-3, with 0 representing absence of staining, and 3 exhibiting prominent staining, and to evaluate the effects of TGFalpha/EGF on in vitro development of preimplantation embryos by adding different concentrations of EGF and TGFalpha to culture medium. The results showed that EGFR was abundant in cell plasma membranes in immature and mature oocytes, cumulus cells of immature cumulus-oocyte complexes (COC), fertilized oocytes and at different stages of embryo development. However, the relative amounts in inner cell mass (ICM) (1+) was less than that in trophectoderm (TE) cells (2+) at the blastocysts stage. The staining pattern for TGFalpha was a similar to EGFR. However, the staining for TGFalpha slightly increased in the fertilized oocytes (1-2+) as compared to immature and mature oocytes (1+). TGFalpha was mainly detected in the cytoplasm close to the membrane in both ICM and trophectoderm (TE) cells. The developmental rate of 8-cell stage embryos cultured with 5 ng/ml TGFalpha was increased as compared to other treatments (P<0.05). There was no significant difference in the rate of development of blastocysts cultured with 5 ng/ml TGFalpha, 20 ng/ml EGF, 20 ng/ml EGF+5 ng/ml TGFalpha or the control treatment (P>0.05). In addition, there was no significant difference in the number of cells in blastocyst stage as compared with different treatments (P>0.05). However, TGFalpha alone enhanced cell survival rated (P<0.01) and reduced apoptosis. We concluded that TGFalpha can improve development of ovine preimplantation embryos at the 8-cell and blastocyst stages in vitro.