Somatic cell nuclear transfer (SCNT) can reprogram a somatic nucleus to a totipotent state.However, the re-organization of three-dimensional chromatin structure in this process remains poorly understood. Using low-input Hi-C, we revealed that during SCNT, the transferred nucleus first enters a mitotic-like state (premature chromatin condensation). Unlike fertilized embryos, SCNT embryos show stronger TADs at the 1-cell stage. TADs become weaker at the 2-cell stage, followed by gradual consolidation. Compartments A/B are markedly weak in 1cell SCNT embryos and become increasingly strengthened afterward. By the 8-cell stage, somatic chromatin architecture is largely reset to embryonic patterns. Unexpectedly, we found cohesin represses minor zygotic genome activation (ZGA) genes (2-cell specific genes) in pluripotent and differentiated cells, and pre-depleting cohesin in donor cells facilitates minor ZGA and SCNT. These data reveal multi-step reprogramming of 3D chromatin architecture during SCNT and support dual roles of cohesin in TAD formation and minor ZGA repression.
Early embryos undergo extensive epigenetic reprogramming to achieve gamete‐to‐embryo transition, which involves the loading and removal of histone variant H2A.Z on chromatin. However, how does H2A.Z regulate gene expression and histone modifications during preimplantation development remains unrevealed. Here, by using ultra‐low‐input native chromatin immunoprecipitation and sequencing, the genome‐wide distribution of H2A.Z is delineated in mouse oocytes and early embryos. These landscapes indicate that paternal H2A.Z is removed upon fertilization, followed by unbiased accumulation on parental genomes during zygotic genome activation (ZGA). Remarkably, H2A.Z exhibits hierarchical accumulation as different peak types at promoters: promoters with double H2A.Z peaks are colocalized with H3K4me3 and indicate transcriptional activation; promoters with a single H2A.Z peak are more likely to occupy bivalent marks (H3K4me3+H3K27me3) and indicate development gene suppression; promoters with no H2A.Z accumulation exhibit persisting gene silencing in early embryos. Moreover, H2A.Z depletion changes the enrichment of histone modifications and RNA polymerase II binding at promoters, resulting in abnormal gene expression and developmental arrest during lineage commitment. Furthermore, similar transcription and accumulation patterns between mouse and porcine embryos indicate that a dual role of H2A.Z in regulating the epigenome required for proper gene expression is conserved during mammalian preimplantation development.
Nicotine is a common indoor air pollutant that is present in cigarette fumes. Due to its lipophilic nature, nicotine can rapidly transport through membrane barriers and spread throughout the body, which can lead to the development of diseases. However, the impact of nicotine exposure during early embryonic development on subsequent development remains elusive. In this study, we found that nicotine significantly elevated reactive oxygen species, DNA damage and cell apoptosis levels with the decrease of blastocyst formation during early embryonic development. More importantly, nicotine exposure during early embryonic development increased placental weight and disrupted placental structure. In molecular level, we also observed that nicotine exposure could specifically cause the hypermethylation of Phlda2 promoter (a maternally expressed imprinted gene associated with placental development) and reduce the mRNA expression of Phlda2. By RNA sequencing analysis, we demonstrated that nicotine exposure affected the genes expression and excessive activation of the Notch signaling pathway thereby affecting placental development. Blocking Notch signaling pathway by DAPT treatment could recover abnormal placental weight and structure induced by nicotine exposure. Taken together, this study indicates that nicotine causes the declining quality of early embryos and leads to placental abnormalities related with over-activation of the Notch signaling pathway.
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