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ABSTRACT: A characteristic of anamniote development is a relatively long period of embryonic cell divisions in the absence of on-going transcription. In zebrafish, this period lasts for 10 cell cycles, or ∼3-h postfertilization, after which zygotic genome activation (ZGA) takes place during the midblastula transition. How the embryo establishes transcriptional competence and how ZGA is spatially and temporally regulated have not been examined until recently. We review here recent data on the transitions in DNA methylation and posttranslational histone modifications occurring during early zebrafish development, as the embryo acquires transcriptional competence and initiates its own gene expression program. We also address models accounting for the origin of epigenetic states detected in early embryos. From these observations, a concept of epigenetic prepatterning of the embryonic gene expression program prior to the onset of ZGA is emerging. The recent data collectively start shedding light on how ZGA may be programmed and regulated.
Current Topics in Developmental Biology 01/2013; 104:85-112. · 6.00 Impact Factor
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ABSTRACT: Fertilization is followed by complex changes in cytoplasmic composition and extensive chromatin reprogramming which results in the abundant activation of totipotent embryonic genome at embryonic genome activation (EGA). While chromatin reprogramming has been widely studied in several species, only a handful of reports characterize changing transcriptome profiles and resulting metabolic changes in cleavage stage embryos. The aims of the current study were to investigate RNA profiles of in vivo developed (ivv) and in vitro produced (ivt) porcine embryos before (2-cell stage) and after (late 4-cell stage) EGA and determine major metabolic changes that regulate totipotency. The period before EGA was dominated by transcripts responsible for cell cycle regulation, mitosis, RNA translation and processing (including ribosomal machinery), protein catabolism, and chromatin remodelling. Following EGA an increase in the abundance of transcripts involved in transcription, translation, DNA metabolism, histone and chromatin modification, as well as protein catabolism was detected. The further analysis of members of overlapping GO terms revealed that despite that comparable cellular processes are taking place before and after EGA (RNA splicing, protein catabolism), different metabolic pathways are involved. This strongly suggests that a complex metabolic switch accompanies EGA. In vitro conditions significantly altered RNA profiles before EGA, and the character of these changes indicates that they originate from oocyte and are imposed either before oocyte aspiration or during in vitro maturation. IVT embryos have altered content of apoptotic factors, cell cycle regulation factors and spindle components, and transcription factors, which all may contribute to reduced developmental competence of embryos produced in vitro. Overall, our data are in good accordance with previously published, genome-wide profiling data in other species. Moreover, comparison with mouse and human embryos showed striking overlap in functional annotation of transcripts during the EGA, suggesting conserved basic mechanisms regulating establishment of totipotency in mammalian development.
PLoS ONE 01/2013; 8(4):e61547. · 4.09 Impact Factor
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ABSTRACT: The merging of the maternal and paternal genomes into a single pronucleus after fertilization is accompanied by a remarkable reconfiguration of chromatin in the newly formed zygote. The first stages of embryonic chromatin remodeling take place in the absence of ongoing transcription, during a species-specific developmental time-frame. Once post-fertilization chromatin states are organized, zygotic genome activation (ZGA) is initiated, and embryonic transcripts gradually take control of development. We review here transitions in chromatin modifications associated with the onset of ZGA, and the role of transcription factors and DNA motifs in the regulation of ZGA. We propose a model of sequential chromatin remodeling events preceding ZGA, leading to the onset of embryonic transcription.
Cellular and Molecular Life Sciences CMLS 09/2012; · 6.57 Impact Factor
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ABSTRACT: Global transcription silencing occurs in the oocyte during its final phase of growth. The particular mechanism of this silencing is not well understood. Here, we investigated the silencing of RNA polymerase II transcription in porcine oocytes. First, we investigated the transcriptional activity of germinal vesicle oocytes derived from stimulated and non-stimulated gilts, but no transcriptional activity was observed. Second, we focused on the fate of RNA polymerase II in growing and fully grown oocytes. Active and inactive forms of RNA polymerase II were detected in growing oocytes by immunofluorescence and Western blots. In contrast, only the inactive form of RNA polymerase II was detected in fully grown oocytes. To evaluate if the inactive form of RNA polymerase II is released from DNA, the oocytes were subsequently permeabilized and fixed in one step. After this modified fixation protocol, the immunofluorescent labeling was negative in fully grown oocytes, but remained unchanged (positive) in growing oocytes. These results indicate that the inactive form of RNA polymerase II is not bound to DNA during the oocyte growth. Finally, based on Western blot analysis of different stages of oocyte maturation, the inactive form of RNA polymerase II was detected in metaphase I but not in metaphase II. Our study confirmed the global transcription silencing of fully grown oocytes. Compared with other mammalian species (e.g., mouse), the mechanism of RNA polymerase II silencing in porcine oocytes seems to be similar, despite some differences in dynamics. Mol. Reprod. Dev. 79: 697-708, 2012. © 2012 Wiley Periodicals, Inc.
Molecular Reproduction and Development 07/2012; 79(10):697-708. · 2.53 Impact Factor
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ABSTRACT: In vitro production of porcine embryos by means of in vitro fertilization (IVF) or somatic cell nuclear transfer (SCNT) is limited by great inefficienciy. The present study investigated chromatin and nucleolar dynamics in porcine embryos developed in vivo (IV) and compared this physiological standard to that of embryos produced by IVF, parthenogenetic activation (PA), or SCNT. In contrast to IV embryos, chromatin spatial and temporal dynamics in PA, IVF, and SCNT embryos were altered; starting with aberrant chromatin-nuclear envelope interactions at the two-cell stage, delayed chromatin decondensation and nucleolar development at the four-cell stage, and ultimately culminating in failure of proper first lineage segregation at the blastocyst stage, demonstrated by poorly defined inner cell mass. Interestingly, in vitro produced (IVP) embryos also lacked a heterochromatin halo around nucleolar precursors, indicating imperfections in global chromatin remodeling after fertilization/activation. Porcine IV-produced zygotes and embryos display a well-synchronized pattern of chromatin dynamics compatible with genome activation and regular nucleolar formation at the four-cell stage. Production of porcine embryos under in vitro conditions by IVF, PA, or SCNT is associated with altered chromatin remodeling, delayed nucleolar formation, and poorly defined lineage segregation at the blastocyst stage, which in turn may impair their developmental capacity.
Cellular reprogramming. 04/2012; 14(3):225-34.
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ABSTRACT: The zebrafish developmental transcription program is determined by temporal post-translational histone modifications established in a step-wise and combinatorial manner on specific promoters around the time of zygotic genome activation (ZGA). Here, we characterize this increasing epigenetic complexity before, during and after ZGA. H3K4me3/H3K27me3 co-enrichment prevails over H3K4me3/H3K9me3 at the time of ZGA. Whereas most H3K4me3-marked promoters are devoid of transcriptionally repressive H3K9me3 or H3K27me3, the latter marks rarely occur in absence of H3K4me3. On co-enriched genomic regions, H3K4me3 and H3K27me3 can overlap regardless of H3K9me3 enrichment, but H3K4me3 and H3K9me3 are mutually exclusive. H3K4me3 and H3K9me3 may however overlap only when H3K27me3 also marks the overlapping domain, suggesting that H3K27me3 may modulate chromatin states. On metagenes, H3K27me3 enrichment correlates with local alteration in H3K4me3 density, and co-enrichment in H3K9me3 is linked to alterations in both H3K27me3 and H3K4me3 profiles. This suggests physical proximity of these marks and supports a view of existence of bi- or tri-valent chromatin domains. Thus enrichment in trimethylated H3K9 or H3K27 is associated with local remodeling of chromatin manifested by changes in H3K4me3 density. We propose that metagenes can provide information on the multivalency of chromatin sates.
Biochemical and Biophysical Research Communications 12/2011; 417(4):1139-44. · 2.48 Impact Factor
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ABSTRACT: Communication during early pregnancy is essential for successful reproduction. In this review we address the beginning of the communication between mother and developing embryo; including morphological and transcriptional changes in the endometrium as well as epigenetic regulation mechanisms directing the placentation. An increasing knowledge of the embryo-maternal communication might not only help to improve the fertility of our farm animals but also our understanding of human health and reproduction.
Reproduction Fertility and Development 11/2011; 23(8):964-75. · 2.11 Impact Factor
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ABSTRACT: The mammalian germline is generally assumed to undergo extensive epigenetic reprogramming during embryonic development, including a nearly complete erasure of DNA methylation. This assumption does, however, to large degree rely on data from mouse, and despite a well-grounded picture the general nature of these data needs to be validated by investigations of other mammalian species. This study represents such a contribution in the examination of the germline in the domestic pig (Sus scrofa). Semiquantitative immunohistochemistry was used to investigate the level of DNA methylation in the POU5F1-positive primordial germ cells (PGCs) compared with neighboring somatic cells in porcine embryos at Embryonic Day 15 (E15), E17, E20, E21, and E28. We show that, in agreement with the mouse model, a significantly lower level of DNA methylation was observed in the early migrating PGCs. This level was decreasing until a stage coinciding with the entrance of the PGCs to the genital ridge. After this, the methylation level increased. Using whole-mount immunostaining, we determined the spatial arrangement of the porcine PGCs in the period between E15 and E28, allowing some comparison with the migration of the murine germline. The overall conclusion from the obtained data is that the DNA methylation changes in porcine PGCs, as well as the migration of these cells, parallels the picture reported for the mouse.
Biology of Reproduction 02/2011; 84(6):1087-93. · 4.01 Impact Factor
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ABSTRACT: Pre-treating donor cells before somatic cell nuclear transfer (SCNT, 'cloning') may improve the efficiency of the technology. The aim of this study was to evaluate the early development of cloned embryos produced with porcine fibroblasts pre-treated with a permeabilizing agent and extract from Xenopus laevis eggs. In Experiment 1, fetal fibroblasts were permeabilized by digitonin, incubated in egg extract and, after re-sealing of cell membranes, cultured for 3 or 5 days before use as donor cells in handmade cloning (HMC). Controls were produced by HMC with non-treated donor cells. The blastocyst rate for reconstructed embryos increased significantly when digitonin-permeabilized, extract-treated cells were used after 5 days of culture after re-sealing. In Experiment 2, fetal and adult fibroblasts were treated with digitonin alone before re-sealing the cell membranes, then cultured for 3 or 5 days and used as donor cells in HMC. Treatment with digitonin alone increased the blastocyst rate, but only when fetal, and not adult fibroblasts, were used as donor cells, and only after 3 days of culture. In conclusion, we find a time window for increased efficiency of porcine SCNT using donor cells after pre-treatment with permeabilization/re-sealing and Xenopus egg extract. Interestingly, we observe a similar increase in cloning efficiency by permeabilization/re-sealing of donor cells without extract treatment that seems to depend on choice of donor cell type. Thus, pre-treatment of donor cells using permeabilizing treatment followed by re-sealing and in vitro culture for few days could be a simple way to improve the efficiency of porcine cloning.
Zygote 02/2011; 20(1):61-6. · 1.17 Impact Factor
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ABSTRACT: The immediate events of genomic reprogramming at somatic cell nuclear transfer (SCNT) are to high degree unknown. This study was designed to evaluate the nuclear and nucleolar changes during the first cell cycle. Bovine SCNT embryos were produced from starved bovine fibroblasts and fixed at 0.5, 1, 2, 3, 4, 8, 12, and 16 h postactivation (hpa). Parthenogenetic (PA) embryos were used as control. The SCNT and PA embryos were processed for lacmoid staining, autoradiography, transmission electron microscopy (TEM), and immunofluorescence localization of: upstream binding factor (UBF) and fibrillarin at 4 and 12 hpa. Likewise, starved and nonstarved fibroblasts were processed for autoradiography and TEM. The fibroblasts displayed strong transcriptional activity and active fibrillogranular nucleoli. None of the reconstructed embryos, however, displayed transcriptional activity. In conclusion, somatic cell nuclei introduced into enucleated oocytes displayed chromatin condensation, partial nuclear envelope breakdown, nucleolar desegregation and transcriptional quiescence already at 0.5 hpa. Somatic cell cytoplasm remained temporally attached to introduced nucleus and nucleolus was partially restored indicating somatic influence in the early SCNT phases. At 1-3 hpa, chromatin gradually decondensed toward the nucleus periphery and nuclear envelope reformed. From 4 hpa, the somatic cell nucleus gained a PN-like appearance and displayed NPBs suggesting ooplasmic control of development.
Cloning and Stem Cells 08/2009; 11(3):367-75. · 2.66 Impact Factor
