The vast majority of embryo generated by Assisted Reproductive Technologies (ART) do not result in a live offspring and a multiple birth is the single biggest health risk associated with human fertility treatment, and the used of frozen embryos increased for medical or personal reasons. However, practical and ethical reasons might hamper study of human embryos. Therefore, animal models are necessary to elucidate the molecular and morphological changes during development. In the serial experiments, we employed mouse embryos and a Cdx-inducible ES cell system that transdifferentiates into TS cells. We found aberrant gene expression profiles including apoptosis associated (Bcl2), lineage formation related genes (Cdx-2, Tcfap2c, Oct4, and Nanog), and/or mitochondrial DNA replication related genes (mt-cox-1, mt-cox-2, Polg, Polg2, Tfam) in mouse embryos that showed developmentally retardation between morula to blastocyst transition or post implantation development after embryo transfer to surrogate mothers, compared to control embryos. To determine direct interaction between knockdown genes via siRNA approach and putative down-stream genes involved in blastocyst formation and further development, we carried out qPCR and Chip assay in either mouse embryos or the ES cells. qPCR and Chip assay results showed target gene directly bound to promoter regions of down-regulated genes in TS cells. In conclusion, we suggested that an increased understanding of epigenetic regulation of early embryonic development through animal models may ultimately lead to better methodologies for selecting more competent embryos and and/or protocols for augmenting embryos viability.

The objective of this study was to analyzed pattern of proteins expression abnormally in cloned bovine placenta. TIMP-2 protein whose function is related to extracellular matrix degradation and tissue remodeling processes was one of differentially up-regulated proteins in SCNT placenta. And one of down-regulated protein in SCNT placenta was identified as vimentin protein that is presumed to stabilize the architecture of the cytoplasm. The expression patterns of these proteins were validated by Western blotting. To evaluate how regulatory loci of TIMP-2 and vimentin genes was programmed reprogramming in cloned placenta, the status of DNA methylation in the promoter region of TIMP-2 and vimentin genes was analyzed by sodium Bisulfite mapping. The DNA methylation results showed that there was not difference in methylation pattern of TIMP-2 and vimentin loci between cloned and normal placenta. Histone H3 acetylation state of the nucleosome was analyzed in the cloned placental and normal placenta by Western blotting. A small portion of the protein lysates were subjected to Western blotting with the antibodies against anti acetyl-Histone H3. Overall histone H3 acetylation state of SCNT placenta was significantly higher than those of normal placenta cells. It is postulated that cloned placenta at the end of gestation seems to be unusual in function and morphology of placenta via improper expression of TIMP-2 and vimentin by abnormal acetylation states of cloned genome.

Somatic cell nuclear transfer (SCNT) has long been envisioned as a means for generating patient-specific stem cells to treat a range of age-related diseases. Until now, only three research groups have reported the successful derivation of SCNT-derived pluripotent stem cells (SCNT-PSCs). Our group has shown for the first time that human SCNT-PSCs can be successfully generated using dermal fibroblasts from 35 and 75 year-old males, and also recently established another SCNT-PSC from a patient with disease. However, despite cloning success in these groups, the derivation of stem cell lines from cloned human embryos has proven elusive. So, several approaches for the optimization of SCNT conditions, such as the use of protein phosphatase inhibitors, oocyte activation method and epigenetic regulation have been applied in order to overcome the obstacle. This study reveals mechanistic insights and establishes a promising method for improving human SCNT for regenerative medicine.

포유동물의 초기 발생과정 중 접합체가 전능성이나 다능성을 가지기 위해서는 전반적인 DNA 메틸화를 포함하는 후성 유전학적 리프로그래밍의 복잡한 과정을 거쳐야만 한다. 본 연구팀에서는 공여핵의 후성 유전학적 리프로그래밍 과정을 조사하기 위하여 소 복제수정란에서 메틸화 양상을 분석하였다. 복제수정란의 비정상적인 메틸화 양상이 다양한 반복염기서열에서 관찰되었지만 single-copy유전자들의 염기서열은 정상적인 메틸화 양상을 보여주었다. 전반적으로 복제수정란