Disruption of the cytokeratin filament network in the preimplantation mouse embryo

The distribution of the cytokeratin network in the intact preimplantation mouse embryo and the role of cytokeratin filaments in trophectoderm differentiation were investigated by means of whole-mount indirect immunofluorescence microscopy and microinjection of anti-cytokeratin antibody. Assembled cytokeratin filaments were detected in some blastomeres as early as the compacted 8-cell stage. The incidence and organization of cytokeratin filaments increased during the morula stage, although individual blastomeres varied in their content of assembled filaments. At the blastocyst stage, each trophectoderm cell contained an intricate network of cytokeratin filaments, and examination of sectioned blastocysts confirmed that extensive arrays of cytokeratin filaments were restricted to cells of the trophectoderm. Microinjection of anticytokeratin antibody into individual mural trophectoderm cells of expanded blastocysts resulted in a dramatic rearrangement of the cytokeratin network in these cells. Moreover, antibody injection into 2-cell embryos inhibited assembly of the cytokeratin network during the next two days of development. Despite this disruption of cytokeratin assembly, the injected embryos compacted and developed into blastocysts with normal morphology and nuclear numbers. These results suggest that formation of an elaborate cytokeratin network in preimplantation mouse embryos is unnecessary for the initial stages of trophectoderm differentiation resulting in blastocyst formation.     

Noncytopathic bovine viral diarrhea virus in a system for in vitro production of bovine embryos

Techniques for in vitro production of bovine embryos have evolved to the extent that applications for the commercial production of calves have been proposed. However, little is known about the epidemiological implications of the procedures. One concern is the introduction of noncytopathic bovine viral diarrhea virus (BVDV). In this study, follicular oocytes (n=247) collected from 10 cows were matured and fertilized in vitro and presumptive zygotes were cultured for 7 d. Primary cultures of bovine oviductal epithelial cells for use during in vitro fertilization and culture were divided into 2 groups. Treated oviductal cells were infected with BVDV while control cells were not exposed to the virus. Two approximately equal groups of mature oocytes from each cow were inseminated, and the presumptive zygotes were cultured with infected or noninfected oviductal cells. After 7 d in culture, zona pellucida-intact morulae/blastocysts and degenerated ova were washed, sonicated and assayed for the presence of virus. The rates of cleavage and development were also compared by Chi-square analysis. After washing, virus was not isolated from morulae and blastocysts but was isolated from some groups of degenerated ova. Infections of oviductal cells were inapparent and did not significantly (P>0.05) affect rates of cleavage or development.     

Differential expression of ezrin/radixin/moesin (ERM) and ERM-associated adhesion molecules in the blastocyst and uterus suggests their functions during implantation

Development of the blastocyst to implantation competency, differentiation of the uterus to the receptive state, and a cross talk between the implantation-competent blastocyst and the uterine luminal epithelium are all essential to the process of implantation. In the present investigation, we examined the possibility for a potential cross talk between the blastocyst and uterus involving the ezrin/radixin/moesin (ERM) proteins and ERM-associated cytoskeletal cross-linker proteins CD43, CD44, ICAM-1, and ICAM-2. In normal Day 4 blastocysts and after rendering dormant blastocysts to implantation-competent by estrogen in vivo (activated), the outer surface of mural trophectoderm cells showed much higher levels of radixin as compared to those in the polar trophectoderm cells, inner cell mass (ICM), and primitive endoderm. In contrast, ezrin was present on both the mural and the polar trophectoderm cell surfaces of normal Day 4 and activated blastocysts at higher intensity than dormant blastocysts. A distinct localization was noted in the primitive endoderm of dormant blastocysts that was not apparent in activated or normal Day 4 blastocysts. The expression of moesin was modestly higher at the mural trophectoderm of implantation-competent blastocysts, while the localization appeared to be present primarily on the polar trophectoderm cell surface of Day 4 blastocysts. The localization of ERM-associated adhesion molecules CD43, CD44, and ICAM-2 was more intense in the implantation-competent blastocysts compared with the dormant blastocysts. However, while CD44 was present both in the trophectoderm and in ICM, CD43 and ICAM-2 were localized primarily to the trophectoderm. The signal for ICAM-1 was very intense in the ICM but was modest in the trophectoderm. No significant changes in fluorescence intensity were noted between activated and dormant blastocysts. In the receptive uterus on Day 4 of pregnancy, ERM proteins were localized to the uterine epithelium, while on Day 5 the localization, especially of radixin and moesin, extended to the stroma surrounding the implantation chamber. With respect to ERM-associated adhesion molecules, while CD44 and ICAM-1 were exclusively localized in the stroma on Day 4, CD43 and ICAM-2 were localized to the epithelium. On Day 5, the localization of CD44 and ICAM-1 became highly concentrated in the antimesometrial stroma of the implantation chamber. The localization of CD43 and ICAM-2 remained mostly epithelial, although some stromal localization of CD43 was noted on Day 5. These results suggest that differential expression and distribution of ERM proteins and ERM-associated adhesion molecules are involved in the construction of the cellular architecture necessary for blastocyst activation and uterine receptivity leading to successful implantation.     

A teratocarcinoma-derived endoderm stem cell line (1H5) that can differentiate into extra-embryonic endoderm cell types

We investigated the ability of the teratocarcinoma-derived, epithelial-type cell line 1H5 to differentiate into either of the two pathways to primary endoderm, and tested the hypothesis that 1H5 represents a state similar to primitive endoderm in the late 4th-day blastocyst. Like other endodermal cell types, 1H5 cells mixed with embryonal-carcinoma cells sort out into "embryoid bodies" or structures that resemble 4th-day mouse embryos. The epithelial line conforms morphologically and biochemically to the few known characteristics typical of primitive endoderm. The present study demonstrates that the formation in vitro of overt visceral endoderm is readily achieved. The spontaneous arrangement of the cells into a cystic form is followed by the appearance of several markers of visceral endoderm, most notably alphafetoprotein, which is detected when 1H5 cells are cultured either in the presence of retinoic acid or when the cells interact with embryonal-carcinoma cells in a specific spatial arrangement after sorting out. However, some less specific properties of visceral endoderm are not expressed. Although 1H5 differentiates histologically into parietal-like endoderm in the tumor form, parietal cells cannot yet be identified with certainty in vitro because of the paucity of parietal-specific markers. The 1H5 cell line could provide a useful system for studying the characteristics and mechanisms underlying visceral-endoderm differentiation in vitro, since it has the distinct advantage that homogeneous cultures are produced, in contrast to other teratocarcinoma cell lines such as F9 which differentiate into a mixture of cell types.     

Apoptosis affects integration frequency: adult stem cells injected in blastocysts show high caspase-3 activity

Chimeric organisms are commonly generated by injecting stem cells into blastocysts. Embryonic stem cells injected into the blastocoel cavity participate in the further development of the embryo. Adult stem cells have also been used in injection experiments to study their potential plasticity. In this study we focused on the early fate of injected human adult hematopoietic stem cells (HSCs). HSCs were followed immunohistochemically 1-19 h after injection into murine blastocysts. We found that they only rarely attached and integrated into the blastocysts. The high rate of loss of injected cells after prolonged in vitro culture of the chimeras can be explained by apoptosis. Our findings are consistent with previous studies reporting a low rate of integration of adult cells injected to produce chimeric embryos, but this is the first demonstration that the low efficiency of adult stem cell injections into blastocysts is influenced by apoptosis.     

Sodium-dependent amino acid transport in preimplantation mouse embryos. III. Na+-k+-atpase-linked mechanism in blastocysts.

Mouse blastocysts collapse in cytochalasin B (CB), reexpand (accumulate fluid) in control medium, but cannot reexpand in ouabain, an inhibitor of Na⁺K⁺-ATPases. These ATPases, then, seem to be necessary for fluid accumulation in blastocysts. Since intact blastocysts are relatively insensitive to ouabain, CB seems to make it possible for ouabain to reach the Na⁺K⁺-ATPases localized on the blastocoelic surface. CB-Collapsed blastocysts were found to transport alanine and lysine at the same rate as intact blastocysts, indicating that, in 1 hr, amino acids are transported into the cells of the intact blastocyst, and not into the fluid-filled blastocoel. Transport rates in CB-collapsed blastocysts do not exceed those in intact blastocysts, suggesting that hypothetical amino acid carriers are located only on the external blastocyst surface. Most important, ouabain strongly inhibits sodium-dependent alanine transport in CB-collapsed blastocysts, but not in intact blastocysts, providing strong evidence that Na⁺K⁺-ATPases, localized on the blastocoelic surface, are necessary for this transport. Ouabain does not inhibit sodium-independent lysine transport in CB-collapsed blastocysts. Thus, the dependency of both sodium-dependent amino acid transport and fluid accumulation upon Na⁺K⁺-ATPases, and the separate localization of amino acid carriers and these ATPases, provides functional evidence for an epithelial tissue type of mechanism for sodium-dependent amino acid transport in mouse blastocysts.     

Autoradiographic studies on (3H)oestradiol localization in the blastocysts and uterus of rats during delayed implantation

The localization of tritiated estradiol by autoradiographic techniques to provide evidence for the direct action of estrogen on the blastocysts was investigated. There was no retention or subcellular radiographic activity demonstrated in flushed-out blastocysts as well as blastocysts in situ. Uterine stromal, glandular and muscle cells showed characteristic retention of the steroid. Several mechanisms for this are proposed, including the transient binding of estradiol which could not be detected as late as 5 minutes after instillation.     

Cysteine Residues in the Major Capsid Protein,Vp1, of the JC Virus Are Important for Protein Stability and Oligomer Formation

The capsid of the human polyomavirus JC virus (JCV) consists of 72 pentameric capsomeres of a major structural protein, Vp1. The cysteine residues of the related Vp1 of SV40 are known to contribute to Vp1 folding, pentamer formation, pentamer-pentamer contacts, and capsid stabilization. In light of the presence of a slight structural difference between JCV Vp1 and SV40 counterpart, the way the former folds could be either different from or similar to the latter. We found a difference: an important contribution of Vp1 cysteines to the formation of infectious virions, unique in JCV and absent in SV40. Having introduced amino acid substitution at each of six cysteines (C42, C80, C97, C200, C247, and C260) in JCV Vp1, we found that, when expressed in HeLa cells, the Vp1 level was decreased in C80A and C247A mutants, and remained normal in the other mutants. Additionally, the C80A and C247A Vp1-expressing cell extracts did not show the hemagglutination activity characteristic of JCV particles. The C80A and C247A mutant Vp1s were found to be less stable than the wild-type Vp1 in HeLa cells. When produced in a reconstituted in vitro protein translation system, these two mutant proteins were stable, suggesting that some cellular factors were responsible for their degradation. As determined by their sucrose gradient sedimentation profiles, in vitro translated C247A Vp1 formed pentamers, but in vitro translated C80A Vp1 was entirely monomeric. When individually incorporated into the JCV genome, the C80A and C247A mutants, but not the other Vp1 cysteine residues mutants, interfered with JCV infectivity. Furthermore, the C80A, but not the C247A, mutation prevented the nuclear localization of Vp1 in JCV genome transfected cells. These findings suggest that C80 of JCV Vp1 is required for Vp1 stability and pentamer formation, and C247 is involved in capsid assembly in the nucleus.     

Ultrastructural and karyotypic examination of in vitro produced bovine embryos developed in the sheep uterus

This study examined whether development of bovine in vitro produced (IVP) blastocysts in the sheep uterus resulted in morphologically and karyotypically normal elongation stage bovine blastocysts. Seven day IVP bovine blastocysts, resulting from either in vitro maturation and fertilization, nuclear transfer (NT), or parthenogenic activation, were surgically transferred at the blastocyst stage into sheep uteri. Sheep were sacrificed after 7-9 days, and blastocysts were flushed from their uteri. One of each kind of IVP bovine blastocyst was recovered from sheep uteri for analysis by transmission electron microscopy, and nine NT blastocysts were used to establish cell cultures that were analysed for chromosome complement. TEM analysis of in vivo-derived elongation stage bovine and ovine blastocysts was done for comparative purposes. Most ultrastructural features of the 13-19 day blastocysts were similar to earlier stage blastocysts except that distinct alternative mitochondrial morphologies were found between epiblast and trophectoderm cells. Monociliated cells, presumably nodal cells, were observed in the bovine epiblast and hypoblast, and retrovirus-like particles were elaborated by cells in these same areas. Development in the sheep uterus of IVP bovine blastocysts resulted in the presence of crystalloid bodies in the trophectoderm cells, and apoptotic and necrotic cells were observed in the epiblast tissue. Thus, in vivo incubation in the sheep uterus allowed nearly normal development to the elongated blastocyst stage and may be useful for assessment of NT bovine blastocyst developmental competence. Cell cultures derived from the NT blastocysts had normal chromosome complements suggesting that activation by ionomycin and 6-dimethyl-aminopurine did not cause detrimental changes in ploidy in those blastocysts that developed.     

Analysis of development-related gene expression in cloned bovine blastocysts with different developmental potential

The high incidence of abnormalities in cloned calves is a most serious problem for bovine somatic cell nuclear transfer (NT) technology. Because there is little information on the differences in mRNA expression in cloned blastocysts with donor cells of different sex and origin, we compared development-related gene expression in two types of cloned bovine blastocysts with different potentials to develop into normal calves, a female adult cumulus cell line (high potential to develop into live calves) and a male fibroblast cell line (low potential to develop into live calves) to examine the correlation between the normality of cloned calves and blastocyst mRNA expression patterns. We analyzed 12 genes involved in apoptosis, growth factor signaling, metabolism, and DNA methylation in blastocysts originating from two types of donor cells and in vitro-fertilized blastocysts using quantitative real-time polymerase chain reaction. Expression of the pro-apoptotic Bax gene and anti-apoptotic Bcl-2 and Glut-1 genes in fibroblast-derived blastocysts was significantly higher than in cumulus cell-derived and in vitro-fertilized blastocysts. The high Bcl-2 and Glut-1 gene expression suggests that some embryonic cells with damaged DNA in fibroblast-derived blastocysts are not removed, and their descendants later manifest abnormal placenta or fetus formation. Transfer of pre-selected cloned blastocysts into recipients is required, however, to determine whether the expression pattern of these apoptosis-related genes reflects differences in the potential to develop into normal calves.     

Assessment of nuclear totipotency of fetal bovine diploid germ cells by nuclear transfer

Nuclear transfer was used to study nuclear reprogramming of fetal diploid bovine germ cells collected at two stages of the fetal development. In the first case, germ cells of both sexes were collected during their period of intragonadal mitotic multiplication at 48 days post co?tum (d.p.c.). In the second case, only male germ cells were collected after this period, between 105 and 185 d.p.c. Isolated germ cells were fused with enucleated oocytes. Reconstituted embryos were cultured in vitro and those reaching the compacted morula or blastocyst stage were transferred into synchronous recipient heifers. Of 511 reconstituted embryos with 48 d.p.c. germ cells (309 males and 202 females), 48% (247/511 ) cleaved; 2.7% (14/511 ) reached the compacted morula stage and 8 of them the blastocyst stage (1.6%). No difference was observed between sexes. All 14 compacted morulae/blastocysts were transferred into 6 recipients and one pregnancy was initiated. This recipient was slaughtered at Day 35 and an abnormal conceptus (extended trophectoderm and degenerated embryo) was collected. Its male sex, genetically determined, corresponded to that of donor fetus. Of 380 reconstituted embryos with male 105 to 185 d.p.c. germ cells, 72.1% (274/380 ) cleaved, 2.1% (8 380 ) reached the compact morula stage and 7 of these the blastocyst stage (1.8%). Three blastocysts and one morula were transferred into 4 recipients. Two became pregnant at Day 21 but only one at Day 35 which aborted around Day 40. Our results show that the nucleus of diploid bovine germ cells of both sexes can be reprogrammed. However, in the absence of further development of these reconstituted embryos, nuclear totipotency of bovine diploid germ cells remains to be evidenced.     

In vitro development and cell allocation following aggregation of split embryos with tetraploid or developmentally asynchronous blastomeres in rhesus monkeys

Production of genetically identical pairs of monkeys would have tremendous implications for biomedical research, particularly immunological studies and vaccine trials. Specific aims of this study were to (1) determine whether aggregation of embryos split into halves or quarters with equal numbers of either developmentally asynchronous or tetraploid blastomeres would enhance their developmental potential in vitro and increase total cell numbers in resulting blastocysts, and (2) determine the allocation of tetraploid and developmentally asynchronous blastomeres in resulting blastocysts. Results demonstrated that development into blastocysts was greater (p < 0.05) for embryos split into pairs (39.8%) than for those split into quadruplet sets (17.4%) and similar (p > 0.05) to that of nonmanipulated controls (59.6%). Creation of chimeras from aggregation of a single 4-cell and four 16-cell stage blastomeres resulted in blastocyst formation (69.2%) similar to that of nonmanipulated control embryos (66.9%). However, neither development nor total cell numbers in resulting blastocysts differed between aggregate chimeras and those split into quadruplet sets at the 16-cell stage. Blastocysts resulting from the aggregate chimeras were derived strictly from the 16-cell stage blastomeres, with complete exclusion of the 4-cell stage blastomeres. Aggregation of split embryos with equal numbers of tetraploid blastomeres doubled (p < 0.05) both the proportion developing into blastocysts and the total cell numbers in resulting blastocysts. Tetraploid blastomeres were allocated to both the inner cell mass and trophectoderm of resulting blastocysts. In conclusion, due to exclusion of the less advanced cells, aggregation of developmentally asynchronous blastomeres did not improve the developmental competence or cell numbers of split rhesus embryos. Reconstitution of split embryos with equal numbers of tetraploid blastomeres enhanced their developmental potential and cell numbers in resulting blastocysts. However, tetraploid blastomeres were allocated to both the inner cell mass and trophectoderm.     

Developmental potency of mouse primitive ectoderm cells, embryonic ectoderm cells and primordial germ cells after blastocyst injection

Developmental potency of primitive and embryonic ectoderm cells from 4.50-day to 6.25-day post-coitum (p.c.)mouse embryos and primordial germ cells from 12.50-day p.c. male genital ridges of fetal mice were studied by direct introducing them into 3.50-day p.c. blastocysts. Sixteen (61.5%) overt chimaeras out of 26(50%) offsprings were obtained after transfer of 52 blastocysts injected with 4.50-day primitive ectoderm cells; four (16.0%) overt chimaeras were obtained out of 25 (51.0%) offsprings with 4.75-day primitive ectoderm cells from 49 transferred blastocysts. However, no overt chimaera was obtained with either 5.25-day or 6.25day embryonic ectoderm cells or 12.50-day male primordial germ cells. GPI analysis of mid-gestation conceptuses developed from injected blastocysts showed that 5.25-day embryonic ectoderm cells could only contributed to yolk sac of conceptus. Results suggested that implantation acts as a trigger for the determination of primitive ectoderm cells, and their developmental potency becomes limited within a short period of time in normal development.     

Localization and binding of transforming growth factor-beta isoforms in mouse preimplantation embryos and in delayed and activated blastocysts.

The stage and cell-specific accumulation of mammalian isoforms of transforming growth factor-beta (TGF-beta 1, TGF-beta 2, and TGF-beta 3) and TGF-beta binding were examined in the preimplantation embryo and in progesterone (P4)-treated delayed or P4 plus estradiol-17 beta (E2)-treated activated blastocysts in the mouse. Immunocytochemical studies revealed that while all three immunoreactive TGF-beta isoforms were present in one-cell embryos, very little or no immunostaining was observed in two-cell embryos. However, distinct immunostaining of these isoforms was again observed in four-cell embryos and persisted through the blastocyst stage. Among the isoforms studied, TGF-beta 2 immunostaining showed a unique pattern in late morulae. In many of these morulae, the staining was primarily observed in outside cells. However, in blastocysts, immunostaining for all three isoforms was present both in the inner cell mass (ICM) and trophectoderm (Tr). Immunostaining in sectioned blastocysts and immunosurgically isolated ICMs confirmed immunostaining in Tr and ICM cells. To ascertain whether preimplantation embryos can produce TGF-beta isoforms, immunostaining was performed in embryos grown in vitro from two-cell stage in simple balanced salt solution. Immunoreactive TGF-beta s 1-3 were present in embryos at all stages of development examined (four-cell embryos through blastocysts). The virtual absence of immunoactive TGF-beta s in two-cell embryos but their accumulation in embryos at later stages of development in vitro provides evidence that these growth factors were produced by embryos. In order to assess at what stages of development preimplantation embryos could be responsive to TGF-beta s, specific binding of [125I]TGF-beta 1 and [125I]TGF-beta 2 was performed in embryos and examined by autoradiography. Low levels of binding were first detected in eight-cell embryos. The binding increased in morulae followed by a further increase in blastocysts. Analysis of binding of [125I]TGF-beta 2 in immunosurgically isolated ICMs indicated that binding was primarily evident in Tr cells. Affinity labeling of TGF-beta 1 or TGF-beta 2 in Day 4 blastocysts revealed three classes of binding proteins with approximate molecular sizes of 65 kDa (type I), 90 kDa (type II), and greater than 250 kDa (type III), in addition to a doublet of 130 and 140 kDa proteins. This observation is similar to those reported for other cell types. The data suggest that embryos are likely to be responsive to TGF-beta s after the third cleavage.(ABSTRACT TRUNCATED AT 400 WORDS)     

The developmental potential of the inner cell mass of blastocysts that were derived from mouse ES cells using nuclear transfer technology

The present study examined the causes of the low developmental potential of enucleated oocytes that have received ES cells and consequent postnatal death of the young. The inner cell masses (ICM) of nuclear-transferred blastocysts or diploid blastocysts were injected into tetraploid blastocysts (group B) or nuclear-transferred tetraploid blastocysts (group C), respectively. The developmental potential of these groups was compared with tetraploid blastocysts injected with ICM of diploid blastocysts (group A). The potential of reconstituted blastocysts to develop into live young in group B increased slightly (5%) but was significantly lower than that in group A (45%). The rate of postnatal death of young in group B did not decrease. The implantation rate of reconstituted blastocysts in group C was very low and no live fetuses were obtained. The results of the present study indicate that the inferior potential of both ICM and trophectoderm cells of nuclear-transferred blastocysts underlies the low developmental rate of nuclear-transferred oocytes receiving ES cells and the higher rate of postnatal death of ES cell-derived young.     

Development and subsequent cryotolerance of domestic cat embryos cultured in serum-free and serum-containing media

The objectives of this study were to examine the effects of the presence or absence of serum during the in vitro culturing period of domestic cat embryos on their developmental potential into blastocysts as well as their tolerance to cryopreservation using a slow-freezing method. In vitro-fertilized cat oocytes were incubated in a modified synthetic oviduct fluid (mSOF) containing 4 mg/mL bovine serum albumin (BSA) throughout culturing (BSA group) or in mSOF containing 4 mg/mL BSA for the first 3 days followed by mSOF containing 5% fetal bovine serum (FBS group). The developmental potential of the embryos to the blastocyst and expanded blastocyst stages was evaluated 7 days after in vitro fertilization. The blastocysts were frozen-thawed by the slow-freezing method and cultured for 3 days to examine their viability in vitro. There were no differences in the formation rates of blastocysts or expanded blastocysts, or number of cells in the embryos between the two groups. After cryopreservation, the hatching rates of the expanded blastocysts in the BSA group were significantly higher (P < 0.05) than those of the FBS group. The postthaw viability of blastocysts was lower than that of expanded blastocysts irrespective of culture medium. These results indicate that the developmental potential of cat embryos cultured in serum-free medium is comparable to those cultured in serum-containing medium. Furthermore, expanded blastocysts produced without serum exhibit better postthaw viability than those produced with serum.     

Nuclear transplantation of mouse fetal germ cells into enucleated two-cell embryos

Mouse fetal germ cells were fused with enucleated blastomeres of two-cell embryos. Donor germ cells were obtained from fetuses of albino CD-1 strain or pigmented F(1) (C57BL x CBA) female mice mated with the same strain males at 11.5 to 16.5 days post coitum. Recipient two-cell embryos, which were of a different strain from the donors, were obtained at 37 to 42 hours (Group 1), 42 to 47 hours (Group 2), and 47 to 52 hours (Group 3) after treatment with human chorionic gonadotropin (hCG). After removing the nucleus from one two-cell blastomere, a single germ cell was fused with the enucleated blastomere using the Sendai virus; the second blastomere was left intact. The reconstituted embryos were cultured for 3 days in vitro, to examine their developmental capacity. The fused blastomeres in Groups 1 and 2 did not divide, but a few transplanted blastomeres in Group 3 divided several times, and some of them developed into normal blastocysts. Most embryos developed into blastocysts from one blastomere, with an undivided blastomere remaining. Embryos developing into normal blastocysts or blastocysts with small blastomeres were transferred to the oviducts of Day-1 or the uteri of Day-3 pregnant albino CD-1 mice. None of the young showed any contribution of the germ cells, judging by the eye and coat colors and by the germ cells in the germ line following mating with albino mice. Possible reasons for failure of pluripotency of the germ cells are discussed here.     

A potential model for studying the plasticity and reprogramming of human epidermal stem cells through preimplantation blastocyst microinjection

Microinjection of adult stem cells (ASCs) into blastocysts provides a classic model for studying ASC plasticity. To explore the molecular mechanisms that govern the reprogramming of ASCs, we evaluated the experimental model through microinjection of human epidermal stem cells (hEpiSCs) into mouse blastocysts. Mouse blastocysts underwent regular embryogenesis after microinjection of allogeneic cells, confirmed by morphological observation and embryo cell counting. hEpiSCs survive and integrate into mouse embryos, by monitoring the migration of injected cells at 2, 4, 12, 16 and 24 h. In this xenogeneic system, hEpiSCs could be reprogrammed within 24 h, as evidenced by the silencing of CK15 and Integrin beta 1 gene expression, without activation of Oct4 and Nanog. Microinjection of hEpiSCs into mouse blastocysts provides an efficient model for studying the molecular mechanisms of their plasticity. Moreover, the possibility of inducing pluripotent stem cells without transgenes or viruses can be entertained.     

Comparative Study on the Ability of Various Teratocarcinomas to Form Chimeric Mouse Embryos

Various embryonal carcinoma cells of different origins were compared as to the ability to form chimeric blastocysts by means of aggregating with normal 8-cell stage mouse embryos. The teratocarcinoma lines examined were OTT6050 and five newly established ones including a spontaneous testicular teratocarcinoma STT-2. The present results have revealed that distinct differences existed in the ability of colonizing blastocysts among teratocarcinomas and also among embryonal carcinoma cell lines.
Since STT-2 stem cells were found to be incorporated into blastocysts most efficiently, further development of the blastocysts were examined in utero. It was found that STT-2 stem cells could be incorporated into the fetuses up to the 7-to 28-somite stages. This is the first case to demonstrate that testicular teratocarcinoma cells with the male germ cell origin have the developmental potency to participate into mouse embryogenesis.     

Pregnancies after co-culture of cumulus cells with bovine embryos derived from in-vitro fertilization of in-vitro matured follicular oocytes

Bovine follicular oocytes surrounded by cumulus cells for more than one-third of their surface were matured, fertilized and developed in vitro utilizing a co-culture system with bovine cumulus cells. Embryos developed into blastocysts were non-surgically transferred to the uteri of cows at Day 6, 7 or 8 (Day 0 = oestrus). Out of 6 recipient cows (19 blastocysts transferred), 3 became pregnant. One of the 3 pregnant cows carried twins. The results of this study demonstrated the viability of embryos obtained from in-vitro maturation of bovine oocytes followed by in-vitro fertilization and culture to the blastocyst stage in vitro.