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Kumar, B Mohana,Maeng, Geun-Ho,Lee, Yeon-Mi,Lee, Jeong-Hyeon,Jeon, Byeong-Gyun,Ock, Sun-A,Kang, Taeyoung,Rho, Gyu-Jin Elsevier ; Kluwer Academic Publishers 2013 Veterinary research communications Vol.37 No.1
<P>Treatment of somatic cells with DNA methylation and histone deacetylation inhibitors has been hypothesized to improve the potential reprogramming after nuclear transfer (NT). The objective of this study was to investigate the developmental competence and gene expression during the porcine preimplantation development of in vitro fertilized (IVF) and embryos cloned with porcine fetal fibroblasts (pFF) (pFF-NT), and pFF treated by 0.5 μM 5-azacytidine (5-azaC) (pFF+5-azaC-NT) or 1.0 mM sodium butyrate (NaB) (pFF+NaB-NT). IVF embryos had significantly (P < 0.05) higher blastocyst rates (27.7 2.6 %) and total cell numbers (46.7 3.9). However, NT embryos from pFF+5-azaC and pFF+NaB showed enhanced developmental potential with significantly (P < 0.05) higher rates of blastocysts (21.3 2.9 % and 22.4 1.7 %, respectively) than those from pFF (15.1 2.5 %). Further, NT embryos from pFF+5-azaC and pFF+NaB (33.8 4.1 and 35.7 5.2, respectively) had significantly (P < 0.05) higher total cell numbers than those from pFF (24.6 3.5). Differential expression pattern of genes involved in DNA methylation (DNA methyltransferases- DNMT1, DNMT2, DNMT3A and DNMT3B), histone acetylation (histone acetyltransferase 1- HAT1) and histone deacetylation (histone deacetylases- HDAC1, HDAC2 and HDAC3) were observed in NT embryos when compared to IVF counterparts. However, the relative expressions of genes in pFF+5-azaC-NT and pFF+NaB-NT groups were largely comparable to those of IVF embryos than pFF-NT embryos. In conclusion, modification of the epigenetic status by reducing DNA methylation or enhancing histone acetylation levels in pFF improved the developmental rates, total cell number and the transcription profile of porcine NT embryos. Thus, somatic cells with relatively hypomethylated or hyperacetylated genome may enhance reprogramming efficiency in porcine NT.</P>
Recent Progress on Skin-Derived Mesenchymal Stem Cells in Pigs
Kumar, B. Mohana,Patil, Rajreddy,Lee, Sung-Lim,Rho, Gyu-Jin The Korean Society of Animal Reproduction 2012 Reproductive & developmental biology Vol.36 No.4
Skin serves as an easily accessible source of multipotent stem cells with potential for cellular therapies. In pigs, stem cells from skin tissues of fetal and adult origins have been demonstrated as either floating spheres (cell aggregates) or adherent spindle-shaped mesenchymal stem cell (MSC)-like cells depending on culture conditions. The cells isolated from the epidermis and dermis of porcine skin showed plastic adherent growth in the presence of serum and positively expressed a range of surface and intracellular markers that are considered to be specific for MSCs. The properties of primitive stem cells have been observed with the expression of alkaline phosphatase and markers related to pluripotency. Further, studies have shown the ability of skin-derived MSCs to differentiate in vitro along mesodermal, neuronal and germ-line lineages. Moreover, preclinical studies have also been performed to assess their in vivo potential, and the findings appear to be effective in tissue regeneration at the defected site after transplantation. The present review describes the recent progress on the biological features of porcine skin-derived MSCs as adherent cells, and summarizes their potential in advancing stem cell based therapies.