Knockdown of Dnmt1 and Dnmt3a gene expression disrupts preimplantation embryo development through global DNA methylation.

Abstract

DNA methylation is one of the epigenetic mechanisms that plays critical roles in preimplantation embryo development executed by DNA methyltransferase (Dnmt) enzymes. Dnmt1, responsible for the maintenance of methylation, and Dnmt3a, for de novo methylation, are gradually erased from the zygote in succeeding stages and then reestablished in the blastocyst. This study was designed to address the vital role of Dnmt1 and Dnmt3a enzymes by silencing their gene expressions in embryonic development in mice. Groups were (i) control, (ii) Dnmt1-siRNA, (iii) Dnmt3a-siRNA, and (iv) non-targeted (NT) siRNA. Knockdown of Dnmt genes using siRNAs was confirmed by measuring the targeted proteins using Western blot and immunofluorescence. Following knockdown of Dnmt1 and Dnmt3a in zygotes, the developmental competence and global DNA methylation levels were analyzed after 96h in embryo cultures. A significant number of embryos arrested atthe 2-cell stage or had undergone degeneration in the Dnmt1 and Dnmt3a knocked-down groups. By 3D observations in super-resolution microscopy, we noted that Dnmt1 was exclusively found in juxtanuclear cytoplasm, while the Dnmt3a signal was preferentially localized in the nucleus, both in trophoblasts (TBs) and embryoblasts (EBs). Interestingly, the global DNA methylation level decreased in the Dnmt1 knockdown group, while it increased in the Dnmt3a knockdown group. Precisely aligned expression of Dnmt genes is highly essential for the fate of an embryo in the early developmental period. Our data indicates that further analysis is mandatory to designate the specific targets of these methylation/demethylation processes in mouse and human preimplantation embryos.