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1.
One-cell parthenogenetic haploid embryos and blastomeres of the 2- and 4-cell diploid mouse embryos were observed in vitro for the occurrence of two cytoplasmic activities: the cortical activity and the chromatin condensation activity. For this purpose anucleated halves (AHs) and nucleated halves (NHs) were produced by bisection of one-cell embryos and of blastomeres. The cortical activity (manifested by surface deformations) was observed only during the first cleavage cycle. In AHs the surface activity began at the same time as in NHs and disappeared before the time of the cleavage division of nucleated halves. Anucleate fragments of blastomeres from 2- and 4-cell embryos did not exhibit any cortical activity. In the absence of the native nucleus the chromatin condensation activity (assayed by premature chromatin condensation of interphase thymocyte nuclei introduced into cytoplasts by cell fusion) could also have been detected only in the first cleavage cycle. In AHs this activity appeared at the time when NHs started to cleave and disappeared after the NHs finished the first cleavage division. AHs obtained from 2-cell and 4-cell stage blastomeres did not reveal condensation activity. © 1995 Wiley-Liss, Inc.  相似文献   

2.
This study examined the chromatin morphology, in vitro development, and expression of selected genes in cloned embryos produced by transfer of mouse embryonic fibroblasts (MEF) into the bovine ooplasm. After 6 hr of activation, inter-species nuclear transfer (NT) embryos (MEF-NT) had one (70%) or two pronuclei (20%), respectively. After 72 hr of culture in vitro, 62.6% of the MEF-NTs were arrested at the 8-cell stage, 31.2% reached the 2- to 4-cell stage, and only 6.2% had more than eight blastomeres, but none of these developed to the blastocyst stage. Whereas, 20% of NT embryos derived from bovine embryonic fibroblast fused with bovine ooplasm (BEF-NT) reached the blastocyst stage. Donor MEF nuclei expressing an Enhanced Green Fluorescent Protein (EGFP) transgene resulted in 1- to 8-cell stage MEF-NT that expressed EGFP. The expression of selected genes was examined in 8-cell MEF-NTs, 8-cell mouse embryos, enucleated bovine oocytes, and MEFs using RT-PCR. The mRNA for heat shock protein 70.1 (Hsp 70.1) gene was detected in MEF-NTs and MEF, but not in mouse embryos. The hydroxy-phosphoribosyl transferase (HPRT) mRNA was found in normal mouse embryos and MEF but not in MEF-NTs. Expression of Oct-4 and embryonic alkaline phospatase (eAP) genes was only detected in normal mouse embryos and not in the inter-species NT embryos. Abnormal gene expression profiles were associated with an arrest in the development at the 8-cell stage, but MEF-NT embryos appeared to have progressed through gross chromatin remodeling, typical of intra-species NT embryos. Therefore, molecular reprogramming rather than chromatin remodeling may be a better indicator of nuclear reprogramming in inter-species NT embryos.  相似文献   

3.
4.
Electrofusion of mouse blastomeres   总被引:10,自引:0,他引:10  
Fusion of blastomeres of 2-cell mouse embryos with an intact zona pellucida can be induced with electric pulses. Fusion was most frequent with the field strength of 1 kV/cm and direct current pulses of 100-250 microsec duration. An electrolyte solution (PBS) can be used instead of a non-electrolyte solution (0.3 M mannitol). The viability of blastomeres fused in these two types of solution is similar. Fused 2-cell blastomeres develop into tetraploid blastocysts but die after implantation. Embryos in which blastomeres failed to fuse despite the treatment (diploid controls) can develop till term. The technique can also be applied to 3- and 4-cell embryos and to zona-free oocytes and blastomeres.  相似文献   

5.
Inner cell mass (ICM) and trophectoderm cell lineages in preimplantation mouse embryos were studied by means of iontophoretic injection of horseradish peroxidase (HRP) as a marker. HRP was injected into single blastomeres at the 2- and 8-cell stages and into single outer blastomeres at the 16-cell and late morula (about 22- to 32-cell) stages. After injection, embryos were either examined immediately for localization of HRP (controls) or they were allowed to develop until the blastocyst stage (1 to 3.5 days of culture) and examined for the distribution of labeled cells. In control embryos, HRP was confined to one or two outer blastomeres. In embryos allowed to develop into blastocysts, HRP-labeled progeny were distributed into patches of cells, showing that there is limited intermingling of cells during preimplantation development. A substantial fraction of injected blastomeres contributed descendants to both ICM and trophectoderm (95, 58, 44, and 35% for injected 2-cell, 8-cell, 16-cell, and late morula stages, respectively). Although more than half of the outer cells injected at 16-cell and late morula stages contributed descendants only to trophectoderm (53 and 63%, respectively), some outer cells contributed also to the ICM lineage even at the late morula stage. Although the mechanism for allocation of outer cells to the inner cell lineage is unknown, our observation of adjacent labeled mural trophectoderm and presumptive endoderm cells implicated polarized cell division. This observation also suggests that mural trophectoderm and presumptive endoderm are derived from common immediate progenitors. These cells appear to separate into inner and outer layers during the fifth cleavage division. Our results demonstrate the usefulness of HRP as a cell lineage marker in mouse embryos and show that the allocation of cells to ICM or trophectoderm begins after the 2-cell stage and continues into late cleavage.  相似文献   

6.
Assessment of nuclear status is important when a biopsied single blastomere is used for embryo sexing. In this study we investigated the nuclear status of blastomeres derived from 8- to 16-cell stage in vitro fertilised bovine embryos to determine the representativeness of a single blastomere for embryo sexing. In 24 embryos analysed, the agreement in sex determination between a biopsied single blastomere and a matched blastocyst by polymerase chain reaction (PCR) was 83.3%. To clarify the discrepancies, karyotypes of blastomeres in 8- to 16-cell stage bovine embryos were analysed. We applied vinblastine sulfate at various concentrations and for different exposure times for metaphase plate induction in 8- to 16-cell stage bovine embryos. The 1.0 mg/ml vinblastine sulfate treatment for 15 h was selected as the most effective condition for induction of a metaphase plate (> 45%). Among 22 embryos under these conditions, only 8 of 10 that had a normal diploid chromosome complement showed a sex chromosomal composition of XX or XY (36.4%) and 2 diploid embryos showed mosaicism of the opposite sex of XX and XY in blastomeres of the embryo (9.1%). One haploid embryo contained only one X-chromosome (4.5%). Four of another 11 embryos with a mixoploid chromosomal complement contained a haploid blastomere with a wrong sex chromosome (18.2%). In conclusion, assessment of nuclear status of 8- to 16-cell stage bovine embryos revealed that morphologically normal embryos had a considerable proportion of mixoploid blastomeres and sex chromosomal mosaicism; these could be the cause of discrepancies in the sex between biopsied single blastomeres and matched blastocysts by PCR.  相似文献   

7.
The present study investigated the in vitro developmental potential of reconstituted mouse embryos produced from the cytoplast of pronuclear-stage embryos or oocytes and single blastomeres of 2-cell stage embryos by electrofusion. The cytoplast of pronuclear-stage embryos and oocytes were obtained by manual bisection with a fine glass needle under a dissecting microscope. The fusion rates of the reconstituted embryos produced from the cytoplast of oocytes and single blastomeres of 2-cell stage embryos (O-SB2: 38.1 and 41.5%) were significantly lower than those produced from the cytoplast of pronuclear-stage embryos and single blastomeres of 2-cell stage embryos (P-SB2: 91.2 and 97.6%; P<0.001). Reconstituted embryos were encapsulated in alginate gel and were cultured for 96 hours. Similarly, the cleavage and development rates to the blastocyst stage of O-SB2 (56.3, 61.2 and 2.0, 3.1%, respectively) were significantly lower than those of the P-SB2 (91.0, 91.2 and 18.6, 20.7%; respectively, P<0.05). The cleavage and development rates to the blastocyst stage (61.2 and 2.0%) of reconstituted embryos produced from single blastomeres of late 2-cell stage embryos and oocyte cytoplast improved after activation by ethanol treatment (76.1 and 21.7%). However, the use of single blastomeres of early 2-cell stage embryos as nuclear donors did not enhance the cleavage and development rates of the reconstituted embryos to the blastocyst stage.  相似文献   

8.
Sixteen inner or outer blastomeres from 16-cell embryos and 32 inner or outer blastomeres from 32-cell embryos (nascent blastocysts) were reaggregated and cultured in vitro. In 24 h old blastocysts developed from blastomeres derived from 16-cell embryos the expression of Cdx2 protein was upregulated in outer cells (new trophectoderm) of the inner cells-derived aggregates and downregulated in inner cells (new inner cell mass) of the external cells-derived aggregates. After transfer to pseudopregnant recipients blastocysts originating from both inner and outer blastomeres of 16-cell embryo developed into normal, fertile mice, but the implantation rate of embryos formed from inner cell aggregates was lower. The aggregates of external blastomeres derived from 32 cell embryo usually formed trophoblastic vesicles accompanied by vacuolated cells. In contrast, the aggregates of inner blastomeres quickly compacted but cavitation was delayed. Although in the latter embryos the Cdx2 protein appeared in the new trophectoderm within 24 h of in vitro culture, these embryos formed only very small outgrowths of Troma1-positive giant trophoblastic cells and none of these embryos was able to implant in recipient females. In separate experiment we have produced normal and fertile mice from 16- and 32-cell embryos that were first disaggregated, and then the sister outer and inner blastomeres were reaggregated at random. In blastocysts developed from aggregates, within 24 h of in vitro culture, the majority of inner and outer blastomeres located themselves in their original position (internally and externally), which implies that in these embryos development was regulated mainly by cell sorting.  相似文献   

9.
Mouse preimplantation embryos were examined for the cell surface expression of epitopes that cross-react with antibodies to a 75-kDa subunit of a purified porcine renal brush border Na+/glucose cotransport system. A Na+ cotransport system is hypothesized to reside in the apical plasma membrane domain of mouse polar blastomeres and to be associated with the induction of their apical-basal polarity. Western blot analysis showed that unfertilized oocytes as well as preimplantation embryos contain a cross-reacting antigen with an apparent molecular weight of about 75,000. Embryos and their isolated blastomeres were double-labeled and assayed by indirect immunofluorescence (IIF) for the expression of epitopes (visualized by labeling with rabbit antiserum or mouse monoclonal IgG to cotransporter followed by the appropriate rhodamine-conjugated second antibodies) and for the development of cell surface polarity (visualized by the apical restriction of fluoresceinated succinylated concanavalin A binding; FS Con A). IIF did not detect these epitopes until after the second cleavage when 4-cell embryos expressed low-to-moderate levels. Although epitopes were expressed on all surfaces of 4-cell blastomeres, some blastomeres expressed more epitopes on their apical surfaces than on their basolateral ones. All precompaction 8-cell embryos expressed epitopes, with expression being greater apically on some blastomeres. The level of expression appeared to reach a maximum on morulae and to decline on cavitating embryos. Assays performed on isolated blastomeres from postcompaction embryos showed that by the 16-cell stage epitope expression appeared to become restricted to FS Con A-labeled apical plasma membrane domains and was no longer evident on basolateral domains. This apparent apical restriction of epitope expression was confirmed by electron microscopic examination of immunogold-labeled isolated polar 16-cell blastomeres. These results demonstrate that preimplantation mouse embryos contain an antigen(s) that is immunologically and structurally similar to a 75-kDa renal Na+/glucose cotransporter. The onset of cell surface expression of this antigen precedes development of the stable polar phenotype.  相似文献   

10.
Blastomeres isolated from 16-cell mouse embryos consist of larger cells and smaller cells. In the intact embryo, the larger cells tend to differentiate to the trophectoderm, while the smaller cells give rise to the inner cell mass. The mode of phenotypic alteration of isolated blastomeres from early 16-cell embryos was examined by culturing them as single cells in vitro. The smaller blastomeres showed an increased tendency to be engulfed, as revealed by aggregation experiments during a 15 h culture period just prior to division into the 32-cell stage, while the larger cells remained showing high engulfing activity during this period. The present result demonstrates that the smaller blastomere continues to adopt a selected differentiation program for a certain period, even after its environment is changed.  相似文献   

11.
应用激光扫描共聚焦显微镜的光漂白恢复(fluorescence redistribution after photobleaching,FRAP)技术分析小鼠嵌合体胚胎和正常胚胎的卵裂球之间细胞间隙连接介导通讯(gap junctional inter-cellular communica-tion,GJIC),结果发现:8-细胞期嵌合体胚胎的光漂白恢复率(24.3%)明显低于正常胚胎(64.2%),提示GJIC的降低可能是影响嵌合体胚胎发育率降低的因素之一;囊胚的光漂白恢复率也较低(22.7%),提示随着细胞分化,GJIC的水平有所降低。  相似文献   

12.
The process of cell polarization in mouse 8-cell embryos includes the formation of a polar cluster of cytoplasmic endocytotic organelles (endosomes) subjacent to an apical surface pole of microvilli. A similar polar morphology, supplemented by basally localized secondary lysosomes, is evident following division to the 16-cell stage in outside blastomeres, precursors of the trophectodermal lineage. The roles of microfilaments and microtubules in generating and stabilizing endocytotic and surface features of polarity (visualized by horseradish peroxidase incubation and indirect immunofluorescence labeling, respectively) have been evaluated by exposure of 8- and 16-cell embryos and 8-cell couplets to drugs (cytochalasin D, colcemid, nocodazole) that disrupt the cytoskeleton. The generation of endocytotic polarity is dependent upon intact microtubules and microfilaments, but the newly established endocytotic pole in blastomeres from compacted 8-cell embryos appears to be stabilized exclusively by microtubules. Polarized endocytotic organelles at the 16-cell stage are more resistant to drug treatment than at the 8-cell stage (probably due to microfilament interactions) indicating a maturation phase in the polar cell lineage. Microtubules are also responsible for the orientation of endocytotic clusters along the cell's axis of polarity. In contrast, the generation and stability of polarity at the cell surface appears relatively independent of cytoskeletal integrity. The results are discussed in relation to the mechanisms that may control the development and stabilization of polarization during cleavage.  相似文献   

13.
Polyethylene glycol (PEG) was found to be an effective fusion-inducing agent for early mouse embryo blastomeres. A brief exposure of zona-intact 2-cell embryos to 40% PEG induced fusion of blastomeres in > 80% of embryos, and the treatment did not interfere with subsequent development of embryos to the blastocyst stage.  相似文献   

14.
RNA synthetic activity of human 2-16-cell embryos developing in vitro was studied by [3H]uridine light-microscope autoradiography. Parallelly cut thin sections were examined in the electron microscope. The first extranucleolar RNA synthesis was detected in 4-cell embryos, but nucleoli were never labelled until the 3rd cleavage (6-8-cell embryos). In 6-cell embryos the nucleolar labelling was mostly confined to a narrow peripheral zone. In later cleavage stages most of the blastomeres showed intensive labelling of nucleoli and extranucleolar chromatin. However, rather low levels of extranucleolar RNA synthesis and the absence of nucleolar activity were often seen even in blastomeres of fully compacted morulae. The activation of nucleolar RNA synthesis entailed a noticeable increase in the number of ribosomes (estimated by electron microscope morphometry) that followed a marked drop during the period between the 2-cell and 8-cell stages. The results indicate that the concentration of ribosomes in the preovulatory oocyte is a major factor of its developmental potential.  相似文献   

15.
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.  相似文献   

16.
Summary Blastomeres isolated from 8-and 16-cell embryos (that is 1/8 and 1/16) show a smooth surface at their point of contact with other blastomeres and a microvillous free surface. Microvilli reappear completely on the smooth surface of 52% of 1/8 embryos and partially on 88% of 1/16 embryos if cultured in vitro for 6 h. When 2-to 8-cell embryos are aggregated to 8-cell embryos and forced apart after 1–3 h, the contact surface of the 8-cell embryos has become smooth. Fixed 8-cell embryos are also able to induce complete disappearance of microvilli on the contact surface of a living 8-cell embryo. Embryos having more than 8 cells do not induce complete disappearance of microvilli on the contact surface of 8-cell embryos. Aggregates of late morulae do not show complete disappearance of microvilli at their contact surfaces but rather a loosening of their peripheral blastomeres.Our results show that isolated 1/8 and 1/16 embryos tend to recover from regionalization, that the process of aggregation of embryos having 8 cells or less is similar to compaction and that embryos having more than 8 cells seem to aggregate by cell sorting. The processes of compaction, adhesion and reassortment are briefly discussed. We submit that blastomere regionalization, which depends on cell to cell contact, may be the spatial basis of embryonic regulation and of the inside-outside normal differentiation of early mouse embryos.  相似文献   

17.
Cell and developmental studies have clarified how, by the time of implantation, the mouse embryo forms three primary cell lineages: epiblast (EPI), primitive endoderm (PE), and trophectoderm (TE). However, it still remains unknown when cells allocated to these three lineages become determined in their developmental fate. To address this question, we studied the developmental potential of single blastomeres derived from 16- and 32-cell stage embryos and supported by carrier, tetraploid blastomeres. We were able to generate singletons, identical twins, triplets, and quadruplets from individual inner and outer cells of 16-cell embryos and, sporadically, foetuses from single cells of 32-cell embryos. The use of embryos constitutively expressing GFP as the donors of single diploid blastomeres enabled us to identify their cell progeny in the constructed 2n↔4n blastocysts. We showed that the descendants of donor blastomeres were able to locate themselves in all three first cell lineages, i.e., epiblast, primitive endoderm, and trophectoderm. In addition, the application of Cdx2 and Gata4 markers for trophectoderm and primitive endoderm, respectively, showed that the expression of these two genes in the descendants of donor blastomeres was either down- or up-regulated, depending on the cell lineage they happened to occupy. Thus, our results demonstrate that up to the early blastocysts stage, the destiny of at least some blastomeres, although they have begun to express markers of different lineage, is still labile.  相似文献   

18.
During blastulation of mouse embryos, differentiation of the blastomeres occurs at the 16- to 32-cell stage of the development. The differentiation processes seem to be controlled by extrinsic as well as intrinsic parameters, including distribution of signals neccessary for the induction of cell lineage specific proteins into blastomeres, and the induction of the synthesis of cell lineage specific proteins through cell interactions. These two processes are distinguished by treatment with various chemicals and by mutations. For the distribution of the signal molecules among blastomeres, cell polarization occurring at the 8-cell stage seems to be important, while the activation of the cell lineage specific genes, cell-interactions mediated by cell surface glycoproteins are suggested to play an important role.  相似文献   

19.
Preimplantation mouse embryos of many strains become arrested at the 2-cell stage if the osmolarity of culture medium that normally supports development to blastocysts is raised to approximately that of their normal physiological environment in the oviduct. Arrest can be prevented if molecules that serve as "organic osmolytes" are present in the medium, because organic osmolytes, principally glycine, are accumulated by embryos to provide intracellular osmotic support and regulate cell volume. Medium with an osmolarity of 310 mOsM induced arrest of approximately 80% of CF1 mouse embryos at the 2-cell stage, in contrast to the approximately 100% that progressed beyond the 2-cell stage at 250 or 301 mOsM with glycine. The nature of this arrest induced by physiological levels of osmolarity is unknown. Arrest was reversible by transfer to lower-osmolarity medium at any point during the 2-cell stage, but not after embryos would normally have progressed to the 4-cell stage. Cessation of development likely was not due to apoptosis, as shown by lack of external annexin V binding, detectable cytochrome c release from mitochondria, or nuclear DNA fragmentation. Two-cell embryos cultured at 310 mOsM progressed through the S phase, and zygotic genome activation markers were expressed. However, most embryos failed to initiate the M phase, as evidenced by intact nuclei with decondensed chromosomes, low M-phase promoting factor activity, and an inactive form of CDK1, although a few blastomeres were arrested in metaphase. Thus, embryos become arrested late in the G(2) stage of the second embryonic cell cycle when stressed by physiological osmolarity in the absence of organic osmolytes.  相似文献   

20.
Notochord cells in ascidian embryos are formed by the inducing action of cells of presumptive endoderm, as well as neighboring presumptive notochord, at the 32-cell stage. Studies of the timing of induction using recombinations of isolated blastomeres have suggested that notochord induction must be initiated before the decompaction of blastomeres at the 32-cell stage and is completed by the 64-cell stage. However, it is not yet clear how the duration of notochord induction is strictly limited. In the present paper, the aim was to determine in detail when the presumptive notochord blastomeres lost their competence to respond, and when the presumptive endoderm blastomeres produced inducing signals for the notochord. Presumptive notochord blastomeres and presumptive endoderm blastomeres were isolated from early 32-cell embryos, and were heterochronously recombined at various stages ranging from the early 32-cell stage to the 64-cell stage. Presumptive notochord blastomeres could respond to inductive signals at the early 32-cell stage, and started to lose their responsiveness at the decompaction stage. By contrast, the presumptive endoderm blastomeres persisted in their inducing capacity even at the 64-cell stage. These observations suggest that the loss of competence in presumptive notochord blastomeres limits the duration of notochord induction in intact ascidian embryos.  相似文献   

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