Chromosome hydroxymethylation patterns in human zygotes and cleavage-stage embryos

Efimova, Olga A.; Pendina, Anna A.; Tikhonov, Andrei V.; Федорова, И. М.; Krapivin, Mikhail I.; Chiryaeva, Olga G.; Shilnikova, Evgeniia M; Bogdanova, Mariia A; Kogan, Igor Yu.; Kuznetzova, T. V.; Gzgzyan, Alexander M.; Ailamazyan, Edward K.; Baranov, V. S.

doi:10.1530/rep-14-0343

Cited by 25 publications

(24 citation statements)

References 70 publications

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“…Hydroxymethylated zygotic chromosomes passively lose 5hmC during a replication cycle, which results in chromosome hemihydroxymethylation. With cleavages, hemihydroxymethylated chromosomes are gradually substituted by nonhydroxymethylated chromosomes due to further replication-dependent 5hmC loss, which coincides with that of 5mC Inoue and Zhang, 2011;Pendina et al, 2011;Efimova et al, 2015b]. Random segregation of hydroxymethylated and nonhydroxymethylated chromatids results in different chromosome hydroxymethylation patterns in each blastomere [Efimova et al, 2015b].…”

Section: Discussionmentioning

confidence: 94%

“…The immunodetection of 5hmC and 5mC was performed according to the protocol used previously [Efimova et al, 2015b]. In brief, the preparations were denatured in 2 M HCl for 20-30 min, washed thoroughly in ice-cold PBS and distilled water, and incubated with blocking solution (1% BSA, 0.1% Tween 20 in PBS) for 30-40 min at 37 ° C. The mixture of antibodies against 5hmC (rabbit polyclonal, Active Motif, 39769, Carlsbad, CA, USA) and 5mC (mouse monoclonal, Millipore, clone 33D3, MABE146, USA) diluted in blocking solution (1: 250) was applied to the slides for 90 min at room temperature.…”

Section: Slide Preparation and Immunodetection Of 5hmc And 5mcmentioning

confidence: 99%

“…However, the passive loss of 5hmC in blastomeres is linear due to the absence of new global hydroxymethylation events over the entire period of preimplantation development [Inoue and Zhang, 2011;Efimova et al, 2015b]. In contrast, chromosome hydroxymethylation patterns in postimplantation embryonic and extraembryonic cells point towards nonlinear fluctuations of 5hmC levels.…”

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confidence: 99%

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Inter-Cell and Inter-Chromosome Variability of 5-Hydroxymethylcytosine Patterns in Noncultured Human Embryonic and Extraembryonic Cells

Efimova

Pendina

Krapivin

et al. 2018

Cytogenet Genome Res

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5-hydroxymethylcytosine (5hmC) is an oxidative derivative of 5-methylcytosine (5mC). Recent studies have revealed a sharp difference in the levels of 5hmC in 2 opposite DNA strands of a given chromosome and a chromosome-wide cell-to-cell variability in mammalian cells. This asymmetric 5hmC distribution was found in cultured cells, which may not fully mimic in vivo epigenetic processes. We have checked whether inter-chromosome and inter-cell variability of 5hmC patterns is typical for noncultured human cells. Using indirect immunofluorescence, we analyzed the localization of 5hmC and its co-distribution with 5mC on direct preparations of mitotically active cells from human embryonic lung and chorionic cytotrophoblast samples. We demonstrated 3 types of chromosomes according to the 5hmC accumulation pattern: hydroxymethylated (5hmC in both sister chromatids), hemihydroxymethylated (5hmC in only 1 sister chromatid), and nonhydroxymethylated ones. Each accumulation type was not specific to any particular chromosome, resulting in different 5hmC patterns between homologous chromosomes, among chromosomes within each metaphase plate, among metaphases in one tissue, and between the tissues. The 5mC distribution was stable: chromosomes were methylated in R-bands and, especially in embryonic lung cells, in the heterochromatic regions 1q12, 9q12, and 16q11.2. Our results provide the first evidence of inter-cell and inter-chromosome variability of 5hmC patterns in human noncultured embryonic and extraembryonic cells.

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Section: Discussionmentioning

confidence: 94%

Section: Slide Preparation and Immunodetection Of 5hmc And 5mcmentioning

confidence: 99%

mentioning

confidence: 99%

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Inter-Cell and Inter-Chromosome Variability of 5-Hydroxymethylcytosine Patterns in Noncultured Human Embryonic and Extraembryonic Cells

Efimova

Pendina

Krapivin

et al. 2018

Cytogenet Genome Res

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“…These regions were mainly located subtelomerically and had distinct borders that corresponded to T‐band boundaries. Such highly discrete localization contrasted substantially with that of methylated and hydroxymethylated DNA, which was distributed along the whole euchromatic chromosome arms (Efimova, Pendina, Tikhonov, et al, ; Pendina et al, ). Intriguingly, around two‐thirds (69%) of the identified nucleolar organizing regions (NORs), which were located in the short arms of acrocentric autosomes, were also highly enriched in 5fC and, especially, in 5caC.…”

mentioning

confidence: 99%

“…Intriguingly, around two‐thirds (69%) of the identified nucleolar organizing regions (NORs), which were located in the short arms of acrocentric autosomes, were also highly enriched in 5fC and, especially, in 5caC. This particular feature distinguished 5fC and 5caC patterns from those of 5mC and 5hmC, because the latter were not pronounced in the ribosomal DNA (rDNA) regions (Efimova, Pendina, Tikhonov, et al, ; Pendina et al, ). In the maternal chromosome sets, the distribution of 5fC and 5caC was similar to that in the paternal ones, but their intensity was considerably lower (Figure a).…”

mentioning

confidence: 99%

Genomic distribution of 5‐formylcytosine and 5‐carboxylcytosine in human preimplantation embryos

Pendina

Efimova

Krapivin

et al. 2018

Molecular Reproduction Devel

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How to improve the clinical outcome of round spermatid injection (ROSI) into the oocyte: Correction of epigenetic abnormalities

Tanaka

Watanabe

2023

Reprod Medicine & Biology

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Background First successful human round spermatid injection (ROSI) was conducted by Tesarik et al. in 1996 for the sole treatment of nonobstructive azoospermic men whose most advanced spermatogenic cells were elongating round spermatids. Nine offsprings from ROSI were reported between 1996 and 2000. No successful deliveries were reported for 15 years after that. Tanaka et al. reported 90 babies born after ROSI and their follow‐up studies in 2015 and 2018 showed no significant differences in comparison with those born after natural conception in terms of physical and cognitive abilities. However, clinical outcomes remain low. Method Clinical and laboratory data of successful cases in the precursor ROSI groups and those of Tanaka et al. were reviewed. Results Differences were found between the two groups in terms of identification of characteristics of round spermatid and oocyte activation. Additionally, epigenetic abnormalities were identified as underlying causes for poor ROSI results, besides correct identification of round spermatid and adequate oocyte activation. Correction of epigenetic errors could lead to optimal embryonic development. Conclusion Correction of epigenetic abnormalities has a probability to improve the clinical outcome of ROSI.

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Chromosome hydroxymethylation patterns in human zygotes and cleavage-stage embryos

Cited by 25 publications

References 70 publications

Inter-Cell and Inter-Chromosome Variability of 5-Hydroxymethylcytosine Patterns in Noncultured Human Embryonic and Extraembryonic Cells

Inter-Cell and Inter-Chromosome Variability of 5-Hydroxymethylcytosine Patterns in Noncultured Human Embryonic and Extraembryonic Cells

Genomic distribution of 5‐formylcytosine and 5‐carboxylcytosine in human preimplantation embryos

How to improve the clinical outcome of round spermatid injection (ROSI) into the oocyte: Correction of epigenetic abnormalities

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