Effect of Epigenetic Modifications of Donor Somatic Cells on the Subsequent Chromatin Remodeling of Cloned Bovine Embryos1

Giraldo, Angelica M.; Hylan, D.; Ballard, C. B.; Purpera, Megan N.; Vaught, Todd D.; Lynn, John W.; Godke, R.A.; Bondioli, K. R.

doi:10.1095/biolreprod.107.066662

Cited by 50 publications

(28 citation statements)

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“…In addition, our results demonstrate that a temporal reduction in DNMT1 mRNA levels during the early stages significantly improved the in vitro development of bovine NT embryos (Table 2). Our finding that a reduction in DNMT1 mRNA improved early developmental competence is consistent with work by Giraldo et al [25] that also showed an improvement in early developmental competence in a donor cell line with low levels of DNMT1. Similarly, Wee et al [11] reported that treatment of donor cells with Trichostatin A, an inhibitor of histone deacetylase, prior to NT decreased levels of DNA methylation in the satellite I region and improved early developmental competence of bovine NT embryos.…”

Section: Discussionsupporting

confidence: 92%

“…Giraldo et al. [25] demonstrated that NT embryos obtained using donor cells with low expression of DNMT1 mRNA were associated with a higher developmental competence compared with NT embryos obtained using donor cells with high expression of DNMT1 mRNA. Based on these findings, we hypothesized that a method for reducing the levels of DNMT1 mRNA during the first embryonic divisions would prevent the hypermethylation of genomic DNA.…”

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confidence: 99%

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Effects of Downregulating DNA Methyltransferase 1 Transcript by RNA Interference on DNA Methylation Status of the Satellite I Region and In Vitro Development of Bovine Somatic Cell Nuclear Transfer Embryos

Yamanaka

Sakatani

Kubota

et al. 2011

Journal of Reproduction and Development

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Abstract. For the successful production of cloned animals by somatic cell nuclear transfer (NT), the epigenetic status of the differentiated donor cell is reversed to an embryonic totipotent status. However, in NT embryos, this process is aberrant, with genomic hypermethylation consistently observed. Here, we investigated the effects of silencing DNA methyltransferase 1 (DNMT1) mRNA by small interfering RNA (siRNA) on the DNA methylation status of the satellite I region and in vitro development of bovine NT embryos. First, the levels of DNMT1 expression were analyzed at 0, 24, 48, 72, 120 and 192 h after in vitro culture. Real-time PCR and western blotting analyses detected a significant decrease in DNMT1 mRNA in the siRNA-injected NT (siRNA-NT) group up to 72 h after in vitro culture. Next, the levels of DNA methylation of the satellite I region were analyzed at several time points after in vitro culture. The level of DNA methylation detected in siRNA-NT embryos was significantly less than those in NT embryos throughout in vitro development. Moreover, the developmental rate of embryos to blastocysts in the siRNA-NT group was significantly higher than that of NT embryos. Our data suggest that knockdown of DNMT1 mRNA in NT embryos can induce DNA demethylation, which may enhance reprogramming efficiency. Key words: DNA methylation, DNA methyltransferase, Embryo development, Nuclear transfer, RNA interference (J. Reprod. Dev. 57: [393][394][395][396][397][398][399][400][401][402] 2011) hile there have been many attempts to improve the developmental competence of somatic cell nuclear transfer (NT) embryos, the success rate of producing viable offspring is still very low, with less than 5% of embryos transferred to surrogate females [1]. In bovine cloning, high rates of embryonic, fetal, neonatal and postnatal abnormalities have been consistently observed [2][3][4]. To achieve developmental competence of NT embryos, the donor nucleus of the differentiated cell needs to undergo epigenetic reprogramming during preimplantation development. However, this process needed for a differentiated donor nucleus to achieve embryonic status is delayed and incomplete in NT embryos [5]. In fact, many studies have demonstrated that epigenetic statuses such as DNA methylation and histone acetylation, are abnormally established in NT embryos during preimplantation development [6][7][8][9][10][11][12]. As a result, abnormal gene expression including imprinted genes [10,[13][14][15] can prevent normal development of NT embryos [16].DNA methylation of cytosine residues in CpG dinucleotides is one of the epigenetic modifications mediated by three DNA methyltransferases (DNMTs), DNMT1, DNMT3a and DNMT3b [17]. DNA methylation patterns are dynamic, yet tightly regulated, during mammalian development [18]. In normal embryos, both maternal and paternal gametes undergo extensive demethylation after fertilization, with the paternal genome undergoing demethylation within hours of fertilization [19]. In contrast, the maternal genome is passively...

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Section: Discussionsupporting

confidence: 92%

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confidence: 99%

Effects of Downregulating DNA Methyltransferase 1 Transcript by RNA Interference on DNA Methylation Status of the Satellite I Region and In Vitro Development of Bovine Somatic Cell Nuclear Transfer Embryos

Yamanaka

Sakatani

Kubota

et al. 2011

Journal of Reproduction and Development

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“…Culture conditions of embryos, particularly the presence of serum in culture medium, could affect expression of this gene, as observed previously by Fernández-Gonzalez et al (2009) in mouse andPandey et al (2010) in buffalo SCNT. Giraldo et al (2008) reported that abnormal pattern of transcript may be due to epigenetic modifications due to culture conditions, which directly affect chromatin remodelling and is correlated to imprinted genes. Differences were found in our study for embryos cultured in the presence and absence of serum, may suggest that other factors such as culture medium composition could be responsible for alterations of gene expression.…”

Section: Discussionmentioning

confidence: 99%

Differences in developmental competence and gene expression profiles between buffalo (Bubalus bubalis) preimplantation embryos cultured in three different embryo culture media

et al. 2016

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The objective of this study was to compare effects of in vitro culture systems on embryonic development and expression patterns of developmentally important genes in preimplantation buffalo embryos. After IVM/IVF presumptive zygotes were cultured in one of three systems: undefined TCM-199, mCR2aa medium supplemented with 10 % FBS and defined PVA-myo-inositol-phosphate-EGF medium. No (P [ 0.05) differences at 2-cell, 4-cell and 8-cell to 16-cell stages were observed among the three cultured media used, however, increased (P \ 0.05) blastocyst yield, cell number and hatching rate were found in defined medium compared to undefined media. The expression patterns of genes implicated in embryo metabolism (GLUT-1), anti-apoptosis (BCL-2), imprinting (IGF-2R), DNA methylation (DNMT-3A) and maternal recognition of pregnancy (IFNT) were increased (P \ 0.05) in hatched blastocysts derived from defined medium compared to undefined media. In conclusion, serum-free, defined medium improved developmental competence of in vitro cultured buffalo embryos. Whether these differences in morphological development and gene expression have long-term effects on buffalo calves born after embryo transfer remains unknown. However, it is possible that early adaptations of the preimplantation embryo to its environment persist during fetal and post-natal development.

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“…Because a hypermethylation status of the genome has consistently been observed in bovine SCNT embryos [20][21][22][23], decreasing the levels of DNA methylation in donor cells prior to nuclear transfer might improve developmental competence of SCNT embryos. Therefore, DNA demethylation by siRNA might be a strong tool for analyzing the reprogramming mechanism, resulting in improvement of cloning efficiency.Giraldo et al [45] recently reported that the developmental competence of SCNT embryos obtained using donor cells with a low expression level of DNMT1 mRNA is higher than that of SCNT embryos obtained using donor cells with a high expression level of DNMT1 mRNA. Likewise, it has been reported that global hypomethylation of the genome in mouse fibroblast cells carrying a hypomorphic allele of the DNMT1 gene improves the efficiency of generation of embryonic stem cells from SCNT blastocysts [46].…”

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confidence: 99%

Gene Silencing of DNA Methyltransferases by RNA Interference in Bovine Fibroblast Cells

Yamanaka

Balboula

Sakatani

et al. 2010

Journal of Reproduction and Development

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Abstract.A highly methylated genome, like a somatic donor cell, is observed in somatic cell nuclear transfer (SCNT) embryos. The aberrant DNA methylation status causes global gene expression failure, resulting in low developmental competence of SCNT embryos. In addition, recent studies have uncovered the relationship between DNA methylation status and reprogramming efficiency. Because DNA methylation is performed by DNA methyltransferases (DNMTs), developing a technique which specifically inhibits DNMTs is necessary for further SCNT studies. In the present study, we examined the potential use of RNA interference for knockdown of DNMT mRNA in bovine fibroblast cells that were commonly used as karyoplast donors in SCNT studies. We designed three siRNAs corresponding to DNMT1, DNMT2 and DNMT3a mRNA. In Experiment 1, to optimize transfection conditions, fluorescence and cell viability after transfection were evaluated at different concentrations of transfection reagent using a FITC-labeled nonsilencing control siRNA. Although fluorescence was observed in all groups transfected except for the negative control group, transfection with a higher concentration of transfection reagent significantly decreased in cell viability (P<0.05). In Experiment 2, the amount of DNMT mRNA was measured by real-time PCR at 0, 48 and 96 h after siRNA transfection into the cells. The levels of each DNMT mRNA were significantly decreased at 48 and 96 h after transfection (P<0.01). Furthermore, decreased expression of DNMT1 protein was confirmed by western blotting. In Experiment 3, the DNA methylation statuses were analyzed in each of the siRNA-transfected groups. The DNMT1 siRNA-transfected group had a significantly decreased level of DNA methylation (P<0.05), but the other groups did not. Our data demonstrate that RNA interference with siRNA can be analyzed the function and expression of DNMT genes in bovine fibroblast cells. The present study provides useful information for further SCNT studies. Key words: Bovine fibroblast cells, DNA methylation, DNA methyltransferase, RNA interference, Nuclear transfer (J. Reprod. Dev. 56: [60][61][62][63][64][65][66][67] 2010) ore than ten years have passed since birth of the first cloned animal, "Dolly", by somatic cell nuclear transfer (SCNT). Although many studies have been performed to improve the developmental competence of SCNT embryos to date, the overall efficiency remains low, with usually <5% of embryos transferred to surrogate females developing to term [1]. The reason for the low cloning efficiency is considered to be incomplete reprogramming of epigenetic modifications in SCNT embryos [2]. In mammals, reprogramming of epigenetic modifications such as DNA methylation and histone acetylation is necessary for embryonic development to term [3]. In SCNT embryos, however, epigenetic modifications are abnormally reprogrammed during early development [4,5]. Incomplete reprogramming of epigenetic modifications causes abnormal gene expression including imprinted genes [6,7], resulting in delete...

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Effect of Epigenetic Modifications of Donor Somatic Cells on the Subsequent Chromatin Remodeling of Cloned Bovine Embryos1

Cited by 50 publications

References 47 publications

Effects of Downregulating DNA Methyltransferase 1 Transcript by RNA Interference on DNA Methylation Status of the Satellite I Region and In Vitro Development of Bovine Somatic Cell Nuclear Transfer Embryos

Effects of Downregulating DNA Methyltransferase 1 Transcript by RNA Interference on DNA Methylation Status of the Satellite I Region and In Vitro Development of Bovine Somatic Cell Nuclear Transfer Embryos

Differences in developmental competence and gene expression profiles between buffalo (Bubalus bubalis) preimplantation embryos cultured in three different embryo culture media

Gene Silencing of DNA Methyltransferases by RNA Interference in Bovine Fibroblast Cells

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