Transcript profiling of bovine embryos implicates specific transcription factors in the maternal-to-embryo transition.

Full-grown oocytes are transcriptionally quiescent. Following maturation and fertilization, the early stages of embryonic development occur in the absence (or low levels) of transcription that results in a period of development relying on maternally derived products (e.g., mRNAs and proteins). Two critical steps occur during the transition from maternal to embryo control of development: maternal mRNA clearance and embryonic genome activation with an associated dramatic reprogramming of gene expression required for further development. By combining an RNA polymerase II inhibitor with RNA sequencing, we were able not only to distinguish maternally derived from embryonic transcripts in bovine preimplantation embryos but also to establish that embryonic gene activation is required for clearance of maternal mRNAs as well as to identify putative transcription factors that are likely critical for early bovine development.

Active H3K27me3 demethylation by KDM6B is required for normal development of bovine preimplantation embryos.

The substantial epigenetic remodeling that occurs during early stages of mammalian embryonic development likely contributes to reprogramming the parental genomes from a differentiated to a totipotent state and activation of the embryonic genome. Trimethylation of lysine 27 of histone 3 (H3K27me3) is a repressive mark that undergoes global dynamic changes during preimplantation development of several species. To ascertain the role of H3K27me3 in bovine preimplantation development we perturbed the activity of KDM6B, which demethylates H3K27me3. Knockdown of maternal KDM6B mRNA inhibited the reduction in global levels of H3K27me3 from 2-cell to 8-cell embryo stages and compromised development to the blastocyst stage; embryos that developed to the blastocyst stage had fewer inner cell mass (ICM) and trophectoderm (TE) cells. In addition, the transcriptome of KDM6B knockdown embryos was altered at the 8-cell stage and characterized by downregulation of transcripts related to transcriptional regulation, chromatin remodeling, and protein catabolism. Inhibiting the catalytic activity of KDM6B with a specific small molecule inhibitor also prevented the global decrease in H3K27me3 and compromised development to the blastocyst stage. These results indicate that histone demethylation activity, mediated by KDM6B, is required for the global decrease in H3K27me3, correct activation of the embryonic genome, and development to the blastocyst stage in bovine embryos.