The study of preimplantation development is of great significance to reproductive biology and regenerative medicine. With the development of high-throughput deep sequencing technology, it has been found that lncRNAs play a very important role in the regulation of embryonic development. In this study, key lncRNAs that regulate embryonic development were screened by analyzing the expression pattern of lncRNAs in porcine in vivo fertilization (IVV) embryos. By knocking down lncRNA expression in in vitro fertilization (IVF) embryos, we investigated its function and mechanism of regulating embryonic development. The results showed that the expression pattern of lncRNA was consistent with the time of gene activation. The lncRNAs were highly expressed in the 4-cell to blastocyst stage but barely expressed in the oocytes and 2-cell stage. So we speculated this part of lncRNAs may regulate gene expression. The lncRNA LOC102165808 (named lncT because the gene near this lncRNA is TFAP2C) was one of them. The knockdown (KD) of lncT inhibited embryonic development, resulting in decreased H3K4me3, H3K4me2, and H3K9me3, and increased DNA methylation. Meanwhile, RNAseq showed SIN3A was the top decreased gene in lncT-KD embryos. There was a severe blastocyst formation defect in SIN3A-KD embryos. Both lncT and SIN3A could affect NANOG and induce more cell apoptosis. In conclusion, the knockdown of lncT inhibits embryonic development by regulating H3K4me3, H3K4me2, DNA methylation, pluripotency gene, and apoptosis, and SIN3A is one of the downstream genes of lncT in regulating embryonic development.
To the Editor,The presence of a tiny population of foreign cells or DNA in an organism is known as microchimerism. Microchimerism can occur as a result
Transcription factors (TFs) have the potential function in regulating gene expression. Transcription factor TFAP2C plays important roles in the regulation of post-implantation embryonic development in mice, the reprogramming process, trophectoderm formation and carcinogenesis, but its role in porcine early embryo development remains unclear. This study was conducted to investigate the role of TFAP2C in porcine early embryo development using siRNA cytoplasmic injection. The RNAseq and immunofluorescence staining were performed to detect gene expression, and ChIP and dual luciferase reporter assays were used to elucidate the mechanism. The results showed that the deficiency of TFAP2C could lead to embryonic development disorder. The percentage of the blastocyst in theTFAP2Cknockdown (TFAP2C-KD) group (7.76±1.86%) was significantly decreased compared to the control group (22.92±1.97%) (P**<0.01). The RNAseq results showed that 1208 genes were downregulated and 792 genes were upregulated after siRNA injection. The expression of epigenetic modification enzymes KDM5B, SETD2 (P**<0.01)etc. were significantly elevated inTFAP2C-KDgroup. Meanwhile, the modification levels of H3K4me3, H3K4me2 and H3K9me3 (P*<0.05) were significantly decreased, and the modification levels of H3K36me3 (P**<0.01) and DNA methylation (P**<0.01) were significantly increased inTFAP2C-KD group. DNMT1 was mostly expressed in cytoplasm in the control group, while it was mainly expressed in nuclei in theTFAP2C-KD group. In addition, TFAP2C could bind to the promoter region ofSETD2, and the mutation of the TFAP2C binding site resulted in increased activity ofSETD2promoter (P**<0.01). The knockdown of TFAP2C affects histone modification and DNA methylation by regulating the expression ofSETD2, KDM5B etc. and other genes, thereby inhibiting embryonic development. TFAP2C binds to the promoter region ofSETD2and acts as a hindrance protein. This study fills in the deficiency of TFAP2C in porcine early embryo development and provides theoretical support for animal husbandry production and biomedicine.Author SummaryThe correct activation of embryonic genes is required during early embryonic development, and the activation of these genes is subject to strict epigenetic regulation, such as DNA methylation, histone acetylation and methylation, with abnormalities in either leading to birth defects and developmental defects in individuals. TFs have specific binding motifs that regulate gene expression by binding to them. TFAP2C has been studied in post-implantation embryonic development and trophectoderm generation, however, the effect on early embryo development is unknown. Our findings suggest that TFAP2C deficiency disrupts gene expression patterns and leads to abnormal epigenetic modifications, resulting in abnormal embryo development. Furthermore, we found for the first time that TFAP2C can bind to the promoter region ofSETD2, thereby affecting early embryo development in pigs. This indicates the critical role of TFAP2C in early embryo development in pigs on one hand, and also provides theoretical support for livestock production and biomedicine.
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