Post-thaw survival, cell death and actin cytoskeleton in gene-microinjected rabbit embryos after vitrification

The aim of this study was to compare two vitrification procedures (VPs), using either ethylene glycol (EG) in combination with dimethylsulfoxide (DMSO, vitrification protocol (VPI)) or Ficoll 70 (vitrification protocol II (VPII)), for rabbit embryo cryopreservation based on their post-thaw survival, cell death and actin cytoskeleton. The pronuclear stage eggs were flushed from the oviducts of the slaughtered New Zealand White rabbit does 19-20h post coitum (hpc) and randomly divided into two groups: intact (control) and microinjected (Mi). Mi embryos or intact embryos were cultured for up to 72hpc (morula stage), and then vitrified using either VPI (VPI+Mi, VPI) or VPII (VPII+Mi, VPII). After 2-3 days at -196 degrees C, the embryos were thawed and cultured until 96-100hpc to assess their development to blastocyst, apoptotic rate (TUNEL assay) and state of actin cytoskeleton (phalloidine-TRITC). Mi procedure reduced blastocyst yield, but it was higher than in either vitrified (VPI) or Mi vitrified (VPI+Mi) embryos. VPI compromised, whereas VPII did not significantly affect blastocyst development compared to intact embryos. Mi and VP both affected the embryo quality increasing TUNEL-index and decreasing the ratio of embryos with high quality actin cytoskeleton compared to control. A higher apoptotic index was recorded in VPI group. A combination of Mi and VP induced an increase in apoptotic rate (10.35% and 7.54% for VPI+Mi and VPII+Mi, respectively) as compared to Mi alone (5.7%). Ratio of embryos belonging to best actin quality (grade I) was different among groups and most of the embryos with grade I actin were in intact (84%), Mi (71%) or VPII (70%) groups. A significantly lower number of embryos with grade I actin quality was observed in VPI (58%), VPI+Mi (54%) or VPII+Mi (66%). These observations indicate that of the vitrification schemes tested, the VPII using EG and ficoll 70 as cryoprotectants, was less harmful than VPI (EG combined with DMSO in vitrification medium).     

Isolation of cDNA Clones for Epidermis-Specific Genes of the Ascidian Embryo

The present investigation was conducted to isolate cDNA clones that correspond to epidermis-specific genes of the ascidian embryo. When cleavage of fertilized eggs of Halocynthia roretzi is blocked by treatment with cytochalasin B and the arrested eggs are reared as one-celled embryos for about 30 hr, they develop features of differentiation of the epidermis only. Translation in vitro of poly(A)⁺ RNA from cleavage-arrested embryos and analysis of the products by two-dimensional gel electrophoresis revealed several predominant polypeptides that were not detected in a similar analysis of fertilized eggs, suggesting the appearance of epidermis-specific mRNAs in cleavage-arrested embryos. A cDNA library was constructed from arrested one-celled embryos. Differential screening of the library with a total cDNA probe from cleavage-arrested embryos and with a similar probe from fertilized eggs yielded eight different cDNA clones specific for the cleavage-arrested embryos. Northern blot analysis revealed that the mRNAs that corresponded to these cDNAs were present in normal tailbud embryos. In addition, in situ hybridization of whole-mount specimens showed that the mRNAs were restricted to the epidermal cells of tailbud embryos.     

The effect of hyperthermia in vitro on vitality of rabbit preimplantation embryos

The aim of our study was to test the influence of short exposure (6 h) of preimplantation rabbit embryos to elevated temperatures (41.5 degrees C or 42.5 degrees C) in vitro on their developmental capacity. Fertilized eggs recovered from female oviducts at the pronuclear stage (19 hpc) were cultured at standard temperature (37.5 degrees C) until the morula stage (72 hpc). Afterwards, the embryos were divided into two groups, cultured for 6 h either at hyperthermic (41.5 degrees C or 42.5 degrees C) or standard temperature (control 37.5 degrees C), post-incubated overnight (16-20 h) at 37.5 degrees C and then evaluated for developmental stages, apoptosis (TUNEL), proliferation (cell number), actin cytoskeleton and presence of heat-shock proteins Hsp70. It was observed that hyperthermia at 41.5 degrees C did not alter progression of embryos to higher preimplantation stages (expanded and hatching/hatched blastocysts), rate of apoptosis, total cell number of blastocysts and structure of actin filament compared to 37.5 degrees C. Western-blotting revealed the presence of heat stress-induced 72 kDa fraction of Hsp70 proteins in granulosa cells (exposed to 41 degrees C) and embryos (exposed to 41.5 degrees C). Following the elevation of temperature to 42.5 degrees C embryo development was dramatically compromised. The embryos were arrested at the morula or early blastocyst stage, showed an increased rate of apoptosis and decreased total cell number compared to control. The structure of actin filaments in most of blastomeres was damaged and such blastomeres often contained apoptotic nuclei. In this group a presence of heat-stress-induced fraction of Hsp70 proteins had not been confirmed. This is the first report demonstrating a threshold of thermotolerance of rabbit preimplantation embryos to hyperthermic exposure in vitro. A detrimental effect of higher temperature on the embryo is probably associated with the loss of their ability to produce Hsp70 de novo, which leads to cytoskeleton alterations and enhanced apoptosis.     

Cytological effects of the microinjection of antibody to ras p21 in early cleavage Xenopus embryos

The presence of two ras-related proteins (22 and 23 kDa) was demonstrated in Xenopus embryonic extracts by selective immunoprecipitation using anti-ras monoclonal antibodies 142-24E05 and Y13-259. We further describe the cytological effects of the microinjection of anti-ras monoclonal antibody Y13-259 into early cleavage blastomeres of Xenopus embryos. Injection of the antibody into a blastomere at the two-, four-, or eight-cell stage caused cleavage arrest in the descendants of the injected blastomere. Light microscopy (LM) of cleavage-arrested cells revealed extensive deformation of the cells as well as heterogeneity of distribution of yolk platelets and pigment granules. LM analysis of serial sections of cleavage-arrested cells revealed the presence of multiple nuclei. Although the nuclei expressed similar morphological properties, indicating that they were probably in the same stage of the nuclear cycle, they revealed highly variable chromatin densities. Electron microscope (EM) analysis of the cytoplasm of cleavage-arrested cells revealed the accumulation of vesicles and large membranous elements coincident with cleavage arrest. Furthermore, endoplasmic reticulum (ER) existed in two forms, as closed, circular profiles and as long, linear arrays. Mitochondria were characteristically aligned in single file on both sides of the two types of ER cisternae. EM analysis of nuclei confirmed variations in chromatin organization and suggested the occurrence of unique nuclear envelope fusion among micronuclei in cleavage-arrested cells. Cleavage arrest and changes in cytological features were not observed in the cytoplasm of cells microinjected with normal rat IgG. Thus the immunochemical data and microinjection experiments suggest that ras-like or ras antigenicity exists within rapidly replicating Xenopus blastomeres and may be involved in the organization of a number of its cytoplasmic elements.     

Survival and ultrastructure of gene-microinjected rabbit embryos after vitrification

Morphological signs of injury and subsequent regeneration following vitrification of either rabbit gene microinjected (Gene-Mi) or intact in vitro cultured embryos derived from in vivo fertilized eggs were evaluated by post-warming recovery in culture and analysed by transmission electron microscopy (TEM). The percentages of vitrified/warmed Gene-Mi embryos that reached the blastocyst stage (69%) and hatched (57%) did not differ significantly from those of intact embryos (78% and 56%, respectively). In contrast, in vitro development of embryos to the blastocyst stage among non-vitrified intact (96%) and Gene-Mi (90%) embryos compared with both the intact vitrified (78%) and Gene-Mi vitrified (69%) groups, as well as hatching rate (94%, 90% vs 56%, 57%, respectively) varied significantly (p < 0.001). Observations by TEM showed that the vitrified/warmed intact or Gene-Mi embryos without post-culture displayed severe degenerative changes among their cells. During 24 h of culture a proportion of the embryos were able to regenerate and complete the compaction process. Nevertheless the signs of previous injury were retained, such as swollen cytoplasmic organelles and remaining cellular debris in the perivitelline space. These observations indicate that the procedure of gene Mi does not significantly compromise embryo tolerance to cryopreservation and post-warming developmental ability. Severe changes in embryo morphology, observed at the ultrastructural level, can be attributed to a direct influence of the vitrification process rather than to the Mi procedure itself.     

TUNEL analyses of bovine blastocysts after culture with EGF and IGF-I

Experiments were carried out to investigate the beneficial effects of IGF-I or EGF on bovine embryo development in chemically defined embryo culture media and resultant incidences of nuclear DNA fragmentation as an indication of embryo quality. Presumptive IVF zygotes were randomly cultured in either control (with no added growth factor) or treatment groups, i.e., with 50 ng/ml IGF-I (experiment 1) or 5 ng/ml EGF (experiment 2). IGF-I supplemented to culture media significantly improved proportions of blastocysts from oocytes inseminated compared to untreated controls (38.0% vs. 28.5%). Only embryos reaching the blastocyst stage on day 8 showed significant effects of IGF-I treatment by resulting in higher blastocyst cell numbers (162 vs. 141) and lower percentages of TUNEL positive nuclei (2.1% vs. 3.3%) when compared to controls. Blastocyst development from oocytes was also improved by EGF supplementation compared to untreated controls (38.5% vs. 30.7%). Cell numbers of either day 7 or day 8 blastocysts were not affected by EGF treatment, nor were percentages of TUNEL positive nuclei when compared with controls. Similar proportions of parthenogenetically activated oocytes developed to blastocysts as for inseminated oocytes (28.8%). Parthenogenetic blastocysts contained fewer cells (93) and an increased percentage of TUNEL positive nuclei (5.7%) than were found for IVF embryos.     

Evaluation of mouse preimplantation embryos exposed to oxidative stress cultured with insulin-like growth factor I and II, epidermal growth factor, insulin, transferrin and selenium

Blastocyst culture requires strictly defined culture media to sustain its viability and quality. Although blastocyst media are commercially available, they do not meet all the needs and research focused on blastocyst-promoting agents is on the way. The aims of the study were to evaluate the significance of insulin-like growth factors I (IGF-I) and II (IGF-II); epidermal growth factor (EGF) and a mixture of insulin, transferrin and selenium (ITS) on the development of embryos exposed to oxidative stress. C3B6F1 mice were stimulated with 5 IU of pregnant mare serum gonadotropin following by administration of 5 IU of equine chorionic gonadotropin and mating with DBA males. The mice were killed 40 h after eCG injection by cervical dislocation and then the 2 cell embryos were flushed out from the fallopian tubes. To evaluate whether the growth factors may compensate the unfavorable--oxidative milieu created by hydrogen peroxide (H2O2), the embryos were transferred to 1/ control medium, 2/ control medium+0.1 mM (H2O2) or 3/ control medium+H2O2 enriched with 10(-7) g/ml of IGF-I, IGF-II, EGF or a mixture of insulin (5x10(-6) g/ml), transferrin (5 x10(-6) g/ml) and selenium (5x10(-9) g/ml; ITS). Embryos were evaluated 96-144 hours following eCG injection. In the study the dynamics of embryo development and blastocyst cell numbers (including inner cell mass) were assessed. The morphological evaluation comprised viability and apoptosis (TUNEL). In oxidative stress setting, IGF-I, IGF-II, EGF and ITS minimized the negative influence of H2O2, and embryos developed faster than in control conditions. Blastocysts cultured with hydrogen peroxide and growth factors or ITS displayed normal morphology and had more cells--also within the inner cell mass--than those treated only with H2O2. The positive TUNEL reactions were sporadically observed in embryos cultured with hydrogen peroxide supplemented with growth factors. IGF-I, IGF-II, EGF and ITS have a positive effect on pre-implantation embryo development in detrimental culture conditions of oxidative stress.     

Apoptosis and in vitro development of preimplantation porcine embryos derived in vitro or by nuclear transfer

Apoptosis occurs during preimplantation development in both in vivo- and in vitro-produced embryos, and it may contribute to embryonic loss. The present study investigated the development of porcine nuclear transfer (NT) embryos reconstructed by using fetal fibroblasts as compared to embryos produced by in vitro fertilization (IVF). The onset and the frequency of apoptosis in NT and IVF embryos were examined via morphological and nuclear changes and TUNEL assay. The NT blastocysts had a similar number of nuclei as compared to IVF blastocysts and appeared to be morphologically similar. Relative to IVF embryos, the NT embryos had a lower cleavage rate (42.7% vs. 71.0%) and a lower developmental rate (11.1% vs. 28.6%) to the blastocyst stage. The earliest positive TUNEL signals were detected in the NT embryos on Day 5 of culture. The percentage of cells undergoing apoptosis in the NT embryos was higher than that of the IVF embryos and increased with time in vitro. Some of the abnormal morphological changes observed during early development related to apoptosis. Cytoplasmic fragmentation, developmental arrest, and nuclear condensation were typical characteristics of embryos undergoing apoptosis. Some mechanisms of the apoptotic pathway were triggered by changes in the NT embryos. The developmental rates of NT embryos might be improved by identifying specific apoptotic pathways and then intervening in these pathways to improve development.     

Effect of Microtubular Poisons on Cleavage Furrow Formation and Induction of Furrow-like Dent in Amphibian Eggs

The effects of the microtubular poisons colchicine, vinblastine and nocodazole, on cleavage furrow formation and induction of furrow-like dents in eggs of the newt, Cynops pyrrhogaster , were examined.
Solutions of the poisons were injected beneath the cortex around the small initial furrow, or around the advancing tip of the furrow of eggs during the first cleavage. This resulted in prompt block of the progress of the furrow at the injection site, and subsequent total regression of the furrow or incomplete cleavage.
The ability of the cortex of a cleavage-arrested blastomere to form a furrow-like dent was tested by inhibiting furrow formation of one blastomere of two-cell embryos by injection of the microtubular poisons, and then transplantation of the blastomere under the cortex of the animal half with furrow-inducing cytoplasm (FIC) taken from normally cleaving eggs. No dent was formed. Moreover, FIC from eggs treated with a poison had no ability to induce a dent on the surface of normally cleaving eggs.
These results show that microtubule structures are directly involved in formation of a cleavage furrow.     

Evaluation of viability and apoptosis in horse embryos stored under different conditions at 5 degrees C

The aim of this study was to evaluate the viability (percentage of dead cells) and the incidence of DNA fragmentation of horse embryos after storage in three different media at 5 degrees C for 6 and 24 h. Forty embryos were stored in Emcare Holding Solution for 6 and 24 h, in Hams'F10 or Vigro Holding Plus for 24 h at 5 degrees C (n = 9-10 per group) and 10 embryos were evaluated immediately after collection. First, embryos were stained, immediately after collection or following storage, to detect dead cells (DAPI) and, subsequently, DAPI-stained embryos were fixed and stained to detect DNA fragmentation (TUNEL). Finally, all the fixed embryos were re-stained with DAPI to determine the total number of cells. The percentage of cells stained with both TUNEL and DAPI or TUNEL-only or DAPI-only were determined. The percent of dead cells (DAPI-labelled) per embryo increased with duration of storage, but no differences were detected between the storage media. The percentage of early apoptotic cells (TUNEL+/DAPI-) in fresh and stored embryo for 6 h or 24 h did not differ significantly (P > 0.05). There was a significant correlation between the percentage of cells labelled by TUNEL and DAPI (R = 0.87) (P < 0.001). These results suggest that cooled storage increases cell death but this does not appear to occur by induction of apoptosis and that DAPI staining proves to be a quick and reliable method for assessing embryo viability.     

Cytoplasm mediates both development and oxidation-induced apoptotic cell death in mouse zygotes

Eggs must be the major locus of reproductive aging in women, because donation of eggs from younger to middle-aged women abrogates the effects of age on fertility. Oxidative stress, mitochondrial dysfunction, and apoptosis are associated with senescence. To develop an animal model of egg senescence, we treated mouse zygotes with 175 microM H(2)O(2) that induced mitochondrial dysfunction and developmental arrest, followed by delayed cell death, consistent with apoptosis. We reconstructed zygotes with nuclei and cytoplasm from treated or untreated zygotes, then followed development and apoptotic cell death in the reconstituted embryos. Pronuclear exchange between untreated, normal zygotes served as nuclear transfer controls. Rates of cleavage and development to morula and blastocysts were significantly lower (P<0.01) in zygotes reconstituted from untreated pronuclei and H(2)O(2)-stressed cytoplasts than those of nuclear transfer controls. Instead, the arrested, reconstituted zygotes displayed TUNEL staining at a similar rate to that of H(2)O(2)-treated controls, suggesting that apoptotic potential could be transferred cytoplasmically. On the other hand, rates of cleavage and development to morula and blastocyst of the reconstituted zygotes, derived from stressed pronuclei and untreated cytoplasm, were significantly increased (P<0.05), compared to those of H(2)O(2)-treated, control zygotes, indicating that healthy cytoplasm could partly rescue pronuclei from oxidative stress. Although oxidation stressed both nuclei and cytoplasm, cytoplasm was more sensitive than nuclei to oxidative stress. It is suggested that cytoplasm, most likely mitochondria, plays a central role in mediating both development and apoptotic cell death induced by oxidative stress in mouse zygotes.     

Repression of induced apoptosis in the 2-cell bovine embryo involves DNA methylation and histone deacetylation

Apoptosis in the bovine embryo cannot be induced by activators of the extrinsic apoptosis pathway until the 8-16-cell stage. Depolarization of mitochondria with the decoupling agent carbonyl cyanide 3-chlorophenylhydrazone (CCCP) can activate caspase-3 in 2-cell embryos but DNA fragmentation does not occur. Here we hypothesized that the repression of apoptosis is caused by methylation of DNA and deacetylation of histones. To test this hypothesis, we evaluated whether reducing DNA methylation by 5-aza-2′-deoxycytidine (AZA) or inhibition of histone deacetylation by trichostatin-A (TSA) would make 2-cell embryos susceptible to DNA fragmentation caused by CCCP. The percent of blastomeres positive for TUNEL was affected by a treatment × CCCP interaction (P < 0.0001). CCCP did not cause a large increase in the percent of cells positive for TUNEL in embryos treated with vehicle but did increase the percent of cells that were TUNEL positive if embryos were pretreated with AZA or TSA. Immunostaining using an antibody against 5-methyl-cytosine antibody revealed that AZA and TSA reduced DNA methylation. In conclusion, disruption of DNA methylation and histone deacetylation removes the block to apoptosis in bovine 2-cell embryos.     

Gap-junctional permeability in early and cleavage-arrested ascidian embryos.

Using the whole-cell voltage clamp technique, we have studied junctional conductance (Gj), and Lucifer Yellow (LY) coupling in 2-cell and 32-cell ascidian embryos. Gj ranges from 17.5 to 35.3 nS in the 2-cell embryo where there is no passage of LY, and from 3.5 to 12.2 nS in the later embryo where LY dye spread is extensive. In both cases, Gj is independent of the transjunctional potential (Vj). Manually apposed 2-cell or 32-cell embryos established a junctional conductance of up to 10 nS within 30 min of contact. Furthermore, since we did not observe any significant number of cytoplasmic bridges at the EM and Gj is sensitive to octanol, it is probable that blastomeres in the 2-cell and 32-cell embryos are in communication by gap junctions. In order to compare Gj in the two stages and to circumvent problems of cell size, movement and spatial location, we used cytochalasin B to arrest cleavage. Gj in cleavage-arrested 2-cell embryos ranged from 25.0 to 38.0 nS and remained constant over a period of 2.5 h. LY injected into a blastomere of these arrested embryos did not spread to the neighbour cell until they attained the developmental age of a 32- to 64-cell control embryo. Our experiments indicate a change in selectivity of gap junctions at the 32-cell stage that is not reflected by a macroscopic change in ionic permeability.     

Comparison of gene expression during preimplantation development between diploid and haploid mouse embryos

Reliable estimation and improvement of the developmental potential of in vitro production (IVP) embryos requires functional criteria of embryo quality. Antiapoptotic and mitogenic effects of insulin-like growth factor I (IGF-I), applied during bovine IVP, were studied. Day 6.5 blastocysts were fixed and processed for TUNEL to detect apoptotic cells, for immunocytochemical detection of proliferating cell nuclear antigen (PCNA), and for propidium iodide (PI) staining to detect all nuclei. Laser scanning confocal microscopy was used to determine apoptotic (TUNEL/PI) and proliferative (PCNA/PI) indices. Addition of IGF-I to the culture but not to the maturation medium increased the morula/blastocyst yield (P = 0.03), but the cleavage rate was not affected. During culture, IGF-I significantly lowered the apoptotic index by decreasing the number of apoptotic cells per embryo and elevated the total cell number of the blastocysts. The frequency of blastocysts with apoptotic cells was not affected. IGF-I increased the proportion of blastocysts with apoptotic cells in the inner cell mass area only by reducing apoptosis in the trophectoderm area. The PCNA index was not affected by IGF-I. A positive correlation observed between apoptotic and PCNA-positive cells was significant in groups stimulated with IGF-I during in vitro culture. Of TUNEL-positive cells, 30%-40% per embryo were also positive for PCNA. This colocalization may indirectly suggest an activation of DNA repair process in TUNEL-positive cells in response to DNA fragmentation. IGF-I reduces apoptosis in bovine IVP embryos. The requirement of IGF-I is more critical during embryo culture than during oocyte maturation. Our data suggest that an assay for TUNEL in conjunction with cell proliferation analysis can provide useful information about the quality of IVP embryos.     

Expression of an antigen specific for trunk lateral cells in quarter embryos of the ascidian, Halocynthia roretzi

Cell-lineage analysis has demonstrated that a pair of the right and left A7.6 cells of a 64-cell embryo of the ascidian Halocynthia roretzi, descendants of A4.1 cells of an 8-cell embryo, give rise to trunk lateral cells (TLCs). In this study, in order to investigate cellular mechanisms involved in the specification of TLCs, we have examined the expression of a TLC-specific antigen in cleavage-arrested embryos and in quarter partial embryos. Although cleavage arrest of embryos by treatment with cytochalasin B at early stages, prior to and including the 16-cell stage, inhibited expression of the TLC-specific antigen, embryos arrested at the 32-cell stage and at later stages developed the antigen. The only blastomeres exhibiting expression of the antigen were the presumptive TLCs, as predicted by cell-lineage assignments. When the developmental potential of quarter embryos that originated from four isolated blastomere-pairs (a4.2, b4.2, A4.1, and B4.1 pairs) of an 8-cell embryo was examined, the A4.1 quarter embryos, which are developmentally fated to give rise to TLCs, rarely showed evidence of expression of the antigen. Expression of the antigen was not observed in a4.2 and b4.2 quarter embryos, which are not associated with the TLC fate. By contrast, expression of the antigen was detected in about a half of the B4.1 quarter embryos which are also not associated with the TLC fate. These results are discussed with reference to the relationship between TLCs and mesenchyme cells.     

Differences in the incidence of apoptosis between in vivo and in vitro produced blastocysts of farm animal species: a comparative study

The occurrence of pregnancies and births after embryo transfer (ET) of in vivo produced embryos is generally more successful compared to that of embryos produced in vitro. This difference in ET success has been observed when embryos of morphological equal (high) quality were used. The incidence of apoptosis has been suggested as an additional criterion to morphological embryo evaluation in order to assess embryo quality and effectively predict embryo viability. In this study, equine, porcine, ovine, caprine and bovine in vivo and in vitro produced morphologically selected high quality (grade-I) blastocysts were compared for the occurrence of apoptosis in blastomeres. The total number of cells per embryo and the number of cells with damaged plasma membranes, fragmented DNA and fragmented nuclei per embryo were assessed in selected blastocysts by combining Ethidium homodimer (EthD-1), terminal dUTP nick end labeling (TUNEL) and Hoechst 33342 staining. In general, the level of blastomere apoptosis was low. A higher level of apoptosis was observed in in vitro produced equine, porcine and bovine blastocysts compared to their in vivo counterparts. Interestingly, 4 of the initially selected 29 bovine in vitro produced blastocysts exhibited extensive signs of apoptosis affecting the inner cell mass (ICM), which is not compatible with a viable conceptus. Repeated occurrence of this observation may explain the lower ET outcome of in vitro produced bovine embryos compared to in vivo produced embryos. It is concluded that, although in morphologically high quality blastocysts of several farm animal species a significant difference exists in the percentages of apoptotic cells between in vivo and in vitro produced embryos, the incidence of apoptosis at the blastocyst stage is at such a low level that it cannot reflect the substantial differences in embryo viability that have been described between in vivo and in vitro produced blastocysts following ET.     

Cell contact induces multiple types of electrical excitability from ascidian two-cell embryos that are cleavage arrested and contain all cell fate determinants

Ascidian early embryonic cells undergo cell differentiation without cell cleavage, thus enabling mixture of cell fate determinants in single cells, which will not be possible in mammalian systems. Either cell in a two-cell embryo (2C cell) has multiple fates and develops into any cell types in a tadpole. To find the condition for controlled induction of a specific cell type, cleavage-arrested cell triplets were prepared in various combinations. They were 2C cells in contact with a pair of anterior neuroectoderm cells from eight-cell embryos (2C-aa triplet), with a pair of presumptive notochordal neural cells (2C-AA triplet), with a pair of presumptive posterior epidermal cells (2C-bb triplet), and with a pair of presumptive muscle cells (2C-BB triplet). The fate of the 2C cell was electrophysiologically identified. When two-cell embryos had been fertilized 3 h later than eight-cell embryos and triplets were formed, the 2C cells became either anterior-neuronal, posterior-neuronal or muscle cells, depending on the cell type of the contacting cell pair. When two-cell embryos had been fertilized earlier than eight-cell embryos, most 2C cells became epidermal. When two- and eight-cell embryos had been simultaneously fertilized, the 2C cells became any one of three cell types described above or the epidermal cell type. Differentiation of the ascidian 2C cell into major cell types was reproducibly induced by selecting the type of contacting cell pair and the developmental time difference between the contacting cell pair and 2C cell. We discuss similarities between cleavage-arrested 2C cells and vertebrate embryonic stem cells and propose the ascidian 2C cell as a simple model for toti-potent stem cells.     

Incidence of apoptosis in parthenogenetic porcine embryos generated by using protein kinase or protein synthesis inhibitors

In mammals, embryonic development can be artificially initiated by activating the oocyte using a number of methods. In the present research, we investigated whether butyrolactone I and cycloheximide, two chemicals frequently used in combined oocyte activation protocols, have any detrimental effect on programmed cell death in the developing porcine embryo. Parthenogenetic porcine blastocysts were generated by the following methods: (1) electroporation followed by blocking the activity of specific protein kinases with butyrolactone I; (2) electroporation followed by inhibition of protein synthesis using cycloheximide; and (3) electroporation only (control). The viability of the embryos was evaluated by monitoring the frequency of cells with early and late signs of programmed cell death. There was no difference between the embryos in terms of blastocyst formation (ranging from 27.5+/-3.8 and 33.3+/-3.5%) and total nuclear number (ranging from 23.5+/-1.1 and 31.8+/-4.4). In addition, the occurrence of apoptosis was also similar in the three experimental groups. The proportion of cells with active caspase-9 (a sign of early apoptosis) in the blastocysts produced by the different activation methods was between 19.4+/-1.9 and 23.0+/-2.4%. The annexin V assay revealed that phosphatidylserine flip (another early apoptotic event) took place in 24.4+/-2.1 to 32.3+/-2.4% of the blastomeres. Finally DNA fragmentation, a sign of late stage apoptosis determined by the TUNEL assay, occurred in 8.5+/-2.4 to 10.1+/-3.0% of the cells. The results indicate that temporary inhibition of specific protein kinases or protein synthesis does not increase the onset of apoptosis in parthenogenetic porcine blastocysts.     

High levels of p66shc and intracellular ROS in permanently arrested early embryos

A high incidence of permanent embryo arrest occurs during the first week of in vitro development. We hypothesize that this developmental arrest event is regulated by the stress adaptor protein p66shc, a genetic determinant of life span in mammals, which regulates ROS metabolism, apoptosis, and cellular senescence. The aim of this study was to assess the relationship between intracellular oxidative stress levels with the incidence of embryo arrest and the expression of senescent-associated genes in embryos produced under different oxygen tensions. Embryos cultured under 20% oxygen conditions showed approximately 10-fold increase in oxidative stress, 2-fold increase in the percentage of 2- to 4-cell arrest, and significantly lower developmental capabilities compared to embryos cultured under a 5% oxygen environment. Quantification by real-time PCR and by semiquantitative immunofluorescence showed significantly higher p66shc mRNA and protein levels, respectively, in embryos cultured in 20% versus those cultured in 5% oxygen atmosphere. No significant changes in p53 mRNA and protein levels were detected among embryos derived from both oxygen tensions. Taken together, these results demonstrate that p66shc, but not p53, is significantly more abundant in an embryo population that exhibits higher frequencies of embryo arrest and quantities of intracellular ROS. These results further substantiate that p66shc and oxidative stress are associated with a p53-independent embryonic arrest event for in vitro-produced embryos.