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ABSTRACT: Abstract The somatic cell nuclear transfer (SCNT) procedure requires nuclear remodeling to return differentiated somatic nuclei to the totipotent undifferentiated stage. We hypothesize that mechanical constraints might occur upon SCNT and thereby affect nuclear remodeling. Therefore, we analyzed the nuclear structures upon SCNT using as donors either wild-type fibroblasts with a dense vimentin network or vimentin-deprived cells [embryonic stem cells (ESCs) and fibroblasts invalidated for vimetin]. We demonstrated that following nuclear transfer of wild-type fibroblasts, vimentin intermediate filaments (IFs) persisted around the transplanted nuclei and 88% of them presented severe distortions. We also showed that the presence of vimentin filaments in the reconstructed embryos was correlated with DNA damage, as evidenced by γH2A.X foci. On the other hand, when ESCs or vimentin-null (Vim(-/-)) fibroblasts devoid of IFs were used as nuclear donors, no nuclear distortion and less DNA damage were observed. Altogether we believe that the introduction of vimentin into recipient oocytes during SCNT induces a mechanical constraint on the transplanted nucleus that is responsible for nuclear distortions and DNA damage. This could lead to incomplete reprogramming that would be detrimental to further embryonic development.
Cellular reprogramming. 12/2012; 14(6):497-504.
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ABSTRACT: Phosphorylation of histone H3 at Ser10 (H3S10P) has been linked to a variety of cellular processes, such as chromosome condensation and gene activation/silencing. Remarkably, in mammalian somatic cells, H3S10P initiates in the pericentromeric heterochromatin during the late G2 phase, and phosphorylation spreads throughout the chromosomes arms in prophase, being maintained until the onset of anaphase when it gets dephosphorylated. Considerable studies have been carried out about H3S10P in different organisms; however, there is little information about this histone modification in mammalian embryos. We hypothesized that this epigenetic modification could also be a marker of pericentromeric heterochromatin in preimplantation embryos. We therefore followed the H3S10P distribution pattern in the G1/S and G2 phases through the entire preimplantation development in in vivo mouse embryos. We paid special attention to its localization relative to another pericentromeric heterochromatin marker, HP1β and performed immunoFISH using specific pericentromeric heterochromatin probes. Our results indicate that H3S10P presents a remarkable distribution pattern in preimplantation mouse embryos until the 4-cell stage and is a better marker of pericentromeric heterochromatin than HP1β. After the 8-cell stage, H3S10P kinetic is more similar to the somatic one, initiating during G2 in chromocenters and disappearing upon telophase. Based on these findings, we believe that H3S10P is a good marker of pericentromeric heterochromatin, especially in the late 1- and 2-cell stages as it labels both parental genomes and that it can be used to further investigate epigenetic regulation and heterochromatin mechanisms in early preimplantation embryos.
Journal of Reproduction and Development 04/2012; 58(4):467-75. · 1.46 Impact Factor
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ABSTRACT: Pluripotency genes are implicated in mouse embryonic genome activation (EGA) and pluripotent lineage specification. Moreover, their expression levels have been correlated with embryonic term development. In bovine, however, little information is available about dynamics of pluripotency genes during these processes. In this study, we charted quantitative and/or qualitative spatio-temporal expression patterns of transcripts and proteins of pluripotency genes (OCT4, SOX2 and NANOG) and mRNA levels of some of their downstream targets in bovine oocytes and early embryos. Furthermore, to correlate expression patterns of these genes with term developmental potential, we used cloned embryos, having similar in vitro but different full term development rates. Our findings affirm: firstly, the core triad of pluripotency genes is probably not implicated in bovine EGA since their proteins were not detected during pre-EGA phase, despite the transcripts for OCT4 and SOX2 were present. Secondly, an earlier ICM specification of transcripts and proteins of SOX2 and NANOG makes them pertinent candidates of bovine pluripotent lineage specification than OCT4. Thirdly, embryos with low term development potential have higher transcription rates; nevertheless, precarious balance between pluripotency genes is maintained. This balance presages normal in vitro development but, probably higher transcription rate disturbs it at later stage that abrogates term development.
PLoS ONE 01/2012; 7(3):e34110. · 4.09 Impact Factor
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ABSTRACT: During the periovulatory period, the induction of prostaglandin G/H synthase-2 (PTGS2) expression in cumulus cells and associated prostaglandin E2 (PGE2) production are implicated in the terminal differentiation of the cumulus-oocyte complex. During the present study, the effects of the PTGS2/PGE2 pathway on the developmental competence of bovine oocytes were investigated using an in vitro model of maturation, fertilization, and early embryonic development. The specific inhibition of PTGS2 activity with NS-398 during in vitro maturation (IVM) significantly restricted mitogen-activated protein kinase (MAPK) activation in oocytes at the germinal vesicle breakdown stage and reduced both cumulus expansion and the maturation rate after 22 h of culture. In addition, significantly higher rates of abnormal meiotic spindle organization were observed after 26 h of culture. Periconceptional PTGS2 inhibition did not affect fertilization but significantly reduced the speed of embryo development. Embryo output rates were significantly decreased on Day 6 postfertilization but not on Day 7. However, total blastomere number was significantly lower in embryos obtained after PTGS2 inhibition. The addition of PGE2 to IVM and in vitro fertilization cultures containing NS-398 overrode oocyte maturation and early embryonic developmental defects. Protein and mRNA expression for the prostaglandin E receptor PTGER2 were found in oocytes, whereas the PTGER2, PTGER3, and PTGER4 subtypes were expressed in cumulus cells. This study is the first to report the involvement of PGE2 in oocyte MAPK activation during the maturation process. Taken together, these results indicate that PGE2-mediated interactions between somatic and germ cells during the periconceptional period promote both in vitro oocyte maturation and preimplantation embryonic development in cattle.
Biology of Reproduction 02/2011; 84(6):1248-57. · 4.01 Impact Factor
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ABSTRACT: The early events in the nuclear reprogramming process during somatic cell nuclear transfer (SCNT) consist of morphological remodeling of the donor nucleus including premature chromosome condensation (PCC). In the present study, the objective was to increase oocyte M-Phase Promoting Factor (MPF) kinase activity and to examine the fate of the donor nucleus and the development of SCNT embryos thereafter. Indeed, in controls, recipient oocytes activated upon nuclear transfer, undergo a decrease in MPF activity, responsible for the inability to promote PCC in 77.8% of reconstituted embryos. Here we showed that exposure of the recipient oocyte to the proteasome inhibitor MG132 prior to fusion inhibited the degradation of cyclin B, which normally occurred immediately after activation by electro stimulation, and therefore sustained a high level of MPF. Treatment with MG132 also significantly increased the percentage of SCNT embryos with PCC when compared to the nontreated SCNT control embryos (94.1 vs. 22.2%, respectively, p < 0.01). The frequency of development to the blastocyst stage did not differ between MG132-treated or untreated recipient oocytes. However, we observed a significant increase of the total cells number in embryos produced after MG132 treatment. Investigation of the global nuclear organization by immunodetection of heterochromatin protein 1 (CBX1) showed that SCNT embryos derived from MG132-treated recipient oocytes displayed organization patterns similar to the ones observed in IVF embryos in contrast to the nontreated SCNT controls. Taken together, these results suggest that the PCC induced by MG132 treatment allows reorganization of the chromatin at an appropriate time potentially, leading to better reprogramming.
Cellular reprogramming. 12/2010; 12(6):729-38.
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ABSTRACT: The association between germ cells and somatic granulosa cells persists throughout the growth of the oocyte by means of foot processes of the cumulus corona cells that cross the zona pellucida. During meiotic maturation important nuclear and cytoplasmic events occur in cumulus-oocyte complex suggesting implication of cytoskeletal elements. Immunoblotting analysis of cytoskeletal proteins of the cumulus cells revealed the presence of vimentin polypeptide and of at least two cytokeratin polypeptides. Using immunofluorescence techniques on cryostat sections through frozen tissue, we provided evidence for the presence of cytokeratins of the simple epithelial type in addition to vimentin in sheep cumulus cells. These two types of intermediate filaments were localized throughout the cytoplasm and especially in the foot processes which cross the zona pellucida. The contact area between the two cell types was also labelled with the antibodies. Acrylamide treatment of cumulus-oocyte complexes involved a drastic disorganization of the intermediate filament network and triggered the isolation of the oocyte from its cumulus cells. This isolation resulted in resumption of meiosis. From these results it appears that intermediate filaments could participate in the process of gap junction loss and indirectly in the control of meiosis resumption.
Embryologia 07/2008; 34(5):579 - 587. · 2.21 Impact Factor
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ABSTRACT: It is clear from a wide range of studies that the nuclear/cytoplasmic distribution of Cdc25C has important functional consequences for cell cycle control. It is now admitted that in somatic cells, the localization of Cdc25C in the cytoplasm is required to maintain the cell in an interphasic state and that Cdc25C has to translocate to the nucleus just before M-phase to induce mitotic events. We characterized the expression and localization of Cdc25C during oocyte maturation, the first embryo mitosis, and the first steps of somatic cell nuclear transfer (SCNT) in cattle. We demonstrated that Cdc25C was expressed throughout the maturation process and the early development. We clearly showed that Cdc25C was localized in the nucleus at the germinal vesicle stage and during the early development until the blastocyst stage. However, the signal change in blastocyst and Cdc25C became cytoplasmic as is the case in somatic cells. Thus, oocytes and early embryonic cells presented a specific nuclear Cdc25C localization different from the one observed in somatic cells, suggesting that Cdc25C could have a particular localization/regulation in undifferentiated cells. Following SCNT, Cdc25C became nuclear as soon as the nucleus swelled, and this localization persisted until the blastocyst stage, as is the case in in vitro fertilized embryos. The Cdc25C nuclear localization appeared to constitute a major change, which could be associated with the reorganization of the somatic nucleus upon nuclear transfer.
Reproduction 05/2008; 135(4):431-8. · 2.58 Impact Factor
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ABSTRACT: EGF has been shown to influence meiotic maturation and development competence of oocyte in various mammalian species. We previously reported, in goat, that the EGF receptor (EGF-R) was present both on cumulus cells and oocytes. Here, EGF-induced signaling was investigated during the in vitro maturation process in goat cumulus-oocyte complexes (COCs). Cumulus cells and oocytes were subjected to Western immunoblotting analysis using anti-MAP kinase, anti-phosphotyrosine, anti-phospho MAP kinase, and anti-phospho EGF-R antibodies. We demonstrated that treatment with EGF during the in vitro maturation process induced rapid tyrosine phosphorylation of EGF-R in a time and concentration dependent manner in cumulus cells. A similar pattern of activation by phosphorylation was observed for MAP kinase upon EGF stimulation. AG 1478, an inhibitor of the EGF kinase, suppressed EGF-stimulated phosphorylation of EGF-R and also affected the MAP kinase activation. Treatment with the MEK inhibitor PD 98059 abolished EGF-induced MAP kinase activation. We did not observe oocyte EGF-R phosphorylation in our experiments during the in vitro maturation process. Our data indicate, in goat cumulus cells, that activation of EGF-R by EGF triggers signaling through the MAP kinase pathway during in vitro maturation. This supports the hypothesis that the major site of action for EGF, that regulates oocyte maturation, is the cumulus cell.
Molecular Reproduction and Development 09/2005; 71(4):489-94. · 2.53 Impact Factor
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ABSTRACT: It has been previously reported that epidermal growth factor (EGF) influences meiotic maturation and development competence of oocytes in various mammalian species. The present study was undertaken to analyze the expression of the gene encoding the EGF-receptor (EGF-R) in the goat cumulus-oocyte complex during meiotic competence acquisition. Expression of EGF-R mRNA was evaluated by PCR on reverse transcribed mRNA from follicular cells and oocytes, using EGF-R specific primers designed from human cDNA. The presence of the EGF-R transcript was evidenced in follicular cells as well as in meiotically competent and incompetent oocytes. Western blot analysis performed with specific anti EGF-R antibody revealed in meiotically competent and incompetent oocytes and in follicular cells a 170 kD polypeptide corresponding to the goat EGF-R protein. In oocytes the amount of EGF-R increased with meiotic competence acquisition. EGF-R distribution was examined by indirect immunofluorescence on frozen sections of cumulus-oocyte complexes (COCs). EGF-R immunoreactivity was observed in cumulus cells and in oocytes. Staining appeared to be confined to the periphery of the cells for both oocytes and cumulus cells. In this study, we identified the main component required for signaling via EGF-R in the goat oocyte and in follicular cells. These results suggest a possible involvement of EGF in the regulation of follicular growth and oocyte maturation in goat.
Molecular Reproduction and Development 05/2004; 67(4):439-45. · 2.53 Impact Factor
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ABSTRACT: When in vitro-matured oocytes were enucleated, aged and kept at 10°C before reconstitution, the in vitro development of nuclear transfer embryos to the blastocyst stage did not differ from that obtained with in vitro fertilization. This suggests that these recipient cytoplasts constitute a suitable environment for the development of the nuclear transplant. The aim of the present study was to investigate, at the biochemical level, the result of the preparation of recipient oocytes, including enucleation, ageing and cooling. For this purpose the phosphorylation profiles of four groups of in vitro-matured bovine oocytes (aged oocytes, aged-cooled oocytes, enucleated-aged oocytes and enucleated-aged-cooled oocytes (recipient cytoplasts)) were analyzed. These recipient cytoplasts exhibited a phosphorylation profile similar to that of activated oocytes. Maturation promoting factor (MPF) activity, which was high in young metaphase II oocytes, in aged oocytes, in enucleated-aged oocytes and in aged-cooled oocytes, dropped to the basal level in enucleated-aged-cooled oocytes (recipient cytoplasts), while mitogen-activated protein kinase (MAPK) activity remained elevated. The combination of enucleation, ageing and cooling following oocyte in vitro maturation resulted in an interphase-like stage cytoplasm having a phosphorylation profile and low MPF activity similar to activated oocytes, but exhibiting high MAPK activity.
Embryologia 10/2003; 38(5):517 - 525. · 2.21 Impact Factor
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ABSTRACT: Change in Cdc25C expression and localization during maturation and meiotic competence acquisition was investigated in goat oocytes. Western blot analysis revealed that Cdc25C is constitutively expressed throughout meiosis in competent goat oocytes, with changes in its phosphorylation level. Cdc25C was detected at 55 and 70 kDa, representing the nonphosphorylated form and the hyperphosphorylated active form, respectively. During the G2-M transition at meiosis resumption, Cdc25C was hyperphosphorylated as evidenced by a clear shift from 55 to 70 kDa. Okadaic acid which induced premature meiosis resumption associated with MPF activation also involved a premature shift from 55 to 70 kDa in goat competent oocytes. After artificial activation of goat oocytes, Cdc25C returned to its 55 kDa form. By indirect immunofluorescence, Cdc25C was found essentially localized in the nucleus at the germinal vesicle stage, suggesting that Cdc25C functions within the nucleus to regulate MPF activation. Concomitantly with germinal vesicle breakdown, Cdc25C was redistributed throughout the cytoplasm. The amount of Cdc25C, very low in incompetent oocytes, increased with meiosis competence acquisition. On the other hand, during oocyte growth while the expression of Cdc25C increased, its phosphorylation level increased concomitantly as well as its nuclear translocation. These results suggest that meiosis resumption needs a sufficient amount of Cdc25C which must be completely phosphorylated and nuclear and that the amount of Cdc25C may be a limiting factor for meiotic competence acquisition. We could consider that Cdc25C nuclear translocation and phosphorylation, during oocyte growth, prepare the oocytes in advance for the G2-M phase transition occurring during meiosis resumption.
Molecular Reproduction and Development 06/2002; 62(1):4-12. · 2.53 Impact Factor
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ABSTRACT: To start determining the nature of meiotic incompetence in goat oocytes, we have examined the expression of one of the potential pre-MPF subunits: the cyclin B1. We have been isolating a small DNA probe encoding the goat cyclin B1 box to analyze the expression of the cyclin B1 gene in competent and incompetent goat oocytes. This probe was easily obtained by polymerase-chain-reaction (PCR) on reverse-transcribed mRNA from granulosa cells, using cyclin B specific primers derived from a bovine cDNA. The transcript corresponding to cyclin B1 in goat granulosa cells is 1.8 kb. In situ hybridization analysis indicated that competent and incompetent oocytes contained cyclin B1 mRNA, but also that active cyclin B1 mRNA synthesis occured at the end of the growth phase, e.g., when oocytes progressed in the acquisition of meoitic competence. Western blot analysis, performed with a monoclonal anticyclin B1 antibody, revealed in competent and incompetent oocytes a polypeptide of 65kDa corresponding to the goat cyclin B1 protein. This pattern of cyclin B1 expression further suggested that meiotic incompetence in goat oocytes could not be primarily correlated with a lack of cyclin B1 protein as potential pre-MPF subunit, but to a limiting amount of this protein. Mol. Reprod. Dev. 47:222–228, 1997. © 1997 Wiley-Liss, Inc.
Molecular Reproduction and Development 12/1998; 47(2):222 - 228. · 2.53 Impact Factor
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ABSTRACT: Changes in MPF and MAPK activities during meiotic maturation of goat oocytes were investigated. Detection of MPF activity occurred concomitantly with GVBD, increased at MI, decreased during anaphase-telophase I transition, and increased thereafter in MII oocytes. The appearance of MAPK activity was delayed compared to MPF activity. MAPK activity increased after GVBD and persisted during the MI-MII transition. Whether MAPK was implicated in goat oocyte meiotic competence was also investigated by using oocytes from different follicle size categories that arrest at specific stages of the maturation process (GV, GVBD, MI, and MII). Results indicate that the ability of goat oocytes to resume meiosis is not directly related to the presence of Erk2. The ability to phosphorylate MAPK is acquired by the oocyte during follicular growth after the ability to resume meiosis. GVBD-arrested oocytes exhibited a high level of MPF activity after 27 hr of culture. However, 28% of oocytes from this group contained inactive MAPK, and 72% exhibited high MAPK activity. In addition, 29% of GVBD-arrested oocytes contained a residual interphasic network without recruitment of microtubules around the condensed chromosomes; 71% of GVBD-arrested oocytes displayed recruitment of microtubules near the condensed chromosomes and contained asters of microtubules distributed throughout the cytoplasm. These results indicate that oocytes arrested at GVBD were not exactly at the same point in the meiotic cell cycle progression, and suggest that MAPK could be implicated in the regulation of microtubule organization. The data presented here suggest that in goat oocytes, MAPK is not implicated in the early events of meiosis resumption, but rather in post-GVBD events such as spindle formation and MII arrest. © 1996 Wiley-Liss Inc.
Molecular Reproduction and Development 10/1996; 45(3):351 - 358. · 2.53 Impact Factor
