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Park, Sol Ji,Koo, Ok Jae,Kwon, Dae Kee,Gomez, Ma Ninia Limas,Kang, Jung Taek,Atikuzzaman, Mohammad,Kim, Su Jin,Jang, Goo,Lee, Byeong Chun Cambridge University Press 2011 Zygote Vol.19 No.1
<B>Summary</B><P>Treatment with 6-dimethylaminopurine (6-DMAP) or demecolcine (DE) for several (at least 2) hours after artificial activation is known to improve <I>in vitro</I> development of porcine embryos. However, several reports have also shown that treatments with these chemicals induce apoptosis. The aim of this study was to find out whether short-term treatment with 6-DMAP and DE combined with electrical or thimerosal/dithiothreitol (Thi/DTT) activation had a beneficial effect on development of parthenogenetically activated porcine oocytes. We additionally treated embryos with 6-DMAP (2 mM) and/or DE (0.4 μg/ml) for a short time (40 min) after an electrical pulse (EP) or Thi/DTT. As a result, short-term treatment with 6-DMAP and DE successfully induced development of electrically or Thi/DTT-activated porcine parthenogenetic embryos with no significant difference in cleavage rate, blastocyst formation rate and total cell number compared with long-term treatment. To find optimal activation protocol, cleavage rate, blastocyst formation rate and total cell number were compared between EP and Thi/DTT treatments. Thi/DTT + 6-DMAP + DE showed significantly higher blastocyst formation rate (36.1 ± 3.5%) and total cell number (46.9 ± 1.0) than other groups (EP + 6-DMAP + DE, EP + Thi/DTT + 6-DMAP + DE: 23.3 ± 3.0%, 42.2 ± 1.1 and 17.2 ± 2.7%, 36.7 ± 1.5, respectively). In conclusion, this study demonstrates that short-term treatment with 6-DMAP and DE is as effective as the standard long-term treatment and Thi/DTT + 6-DMAP + DE exerts a synergistic effect.</P>
Kwon, Dae Kee,Kang, Jung Taek,Park, Sol Ji,Gomez, Ma Ninia Limas,Kim, Su Jin,Atikuzzaman, Mohammad,Koo, Ok Jae,Jang, Goo,Lee, Byeong Chun Cambridge University Press 2011 Zygote Vol.19 No.3
<B>Summary</B><P>In non-human primates, it is difficult to collect sufficient numbers of oocytes for producing identical embryos by somatic cell nuclear transfer (SCNT). Because of this factor, inter-species SCNT (iSCNT) using heterospecific oocytes is an attractive alternative approach. The objective of this study was to produce iSCNT-derived blastocysts using enucleated cow (<I>Bos taurus</I>) metaphase II oocytes and adult rhesus monkey (<I>Macaca mulatta</I>) fibroblasts. Ear skin tissue from a 6-year-old male rhesus monkey was collected by biopsy and fibroblasts were isolated. Immature cumulus-oocyte complexes from cow ovaries were collected and matured <I>in vitro</I> in Medium 199. The enucleated oocytes were reconstructed with rhesus monkey fibroblasts and iSCNT embryos were cultured in modified synthetic oviduct fluid in an atmosphere of 5-5.5% CO2 under various conditions (37-39 °C and 5-20% O2) to examine the effects of <I>in vitro</I> culture conditions. Most embryos were arrested at the 8- or 16-cell stage and only three blastocysts were derived in this way using iSCNT from a total of 1153 cultured activated embryos (0.26% production rate). Two of the three blastocysts were used for counting nuclear numbers using bisbenzimide staining, which were 51 and 24. The other iSCNT-derived blastocyst was used to analyse mitochondrial DNA (mtDNA) by PCR, and both rhesus monkey and cow mtDNA were detected. Although the development rate was extremely low, this study established that iSCNT using two phylogenetically distant species, including a primate, could produce blastocysts. With improvements in the development rate, it may be possible to produce rhesus monkey iSCNT-derived embryonic stem cell lines for studies on primate nucleus and cow mitochondria interaction mechanisms.</P>
Kim, Su Jin,Koo, Ok Jae,Kwon, Dae Kee,Kang, Jung Taek,Park, Sol Ji,Gomez, Ma Ninia,Atikuzzaman, Mohammad,Jang, Goo,Lee, Byeong-Chun Cambridge University Press 2014 Zygote Vol.22 No.2
<B>Summary</B><P>The presence of glutamine (Gln) in <I>in vitro</I> maturation (IVM) and <I>in vitro</I> culture (IVC) medium is a more potent factor for improving porcine oocyte and embryo development than other amino acids. However Gln is inherently unstable and spontaneously breaks down into ammonia, and therefore interferes with proper development. To avoid this adverse effect, Gln was replaced in the present study with its stable dipeptide derivative alanyl-glutamine (Ala-Gln) and the effects of this replacement on porcine IVM and IVC were evaluated. Replacement of Gln with Ala-Gln during IVM did not improve nuclear maturation, however numbers of early cleaved embryos were significantly increased after activation. Blastocyst formation rates were also significantly improved by using Ala-Gln during IVM. Replacement of Gln with Ala-Gln during IVC significantly increased total cell numbers in blastocysts. Blastocyst formation rate was also significantly higher when Ala-Gln was used in both IVM and IVC. In conclusion, the use of Ala-Gln rather than Gln gives better results for development in both porcine IVM and IVC.</P>
Role of cumulus cells under different oxygen tension in porcine IVM
Jung-Taek Kang,Mohammad Atikuzzaman,Dae-Kee Kwon,Sol-Ji Park,Su-Jin Kim,Ninia Gomez,Ok-Jae Koo,Goo Jang,Byeong-Chun Lee 한국발생생물학회 2010 한국발생생물학회 학술발표대회 Vol.29 No.-
The objective of this study was to investigate the effects of oxygen tension during in vitro maturation of porcine oocytes on the nuclear maturation and differences in gene expression. Cumulus-oocyte complexes (COCs) were collected from ovaries obtained at a local slaughterhouse, matured for 44 hours in TCM199 supplemented with porcine follicular fluid (pFF) under 5% or 20% oxygen concentration. In results, oxygen tension had no significant effects on nuclear maturation. Relative poly(A) mRNA abundance of MnSOD, CCNB1, LDHA, G6PD, BCL, GPX1, IGFR2, GLUT1, BAX, GREM, PTGS2 was analysed in cumulus cells. GLUT1, G6PD, LDHA were up-regulated in the cumulus cells matured in low oxygen, suggesting a higher glucose uptake and an increase in anaerobic glycolysis, whereas CCNB, MnSOD were up-regulated in the cumulus cells matured in high oxygen, which suggest a higher activity of mitosis-promoting factor and antioxidant response. In conclusion, cumulus cells increase in glucose metabolism via anaerobic glycolysis under low oxygen concentration and show significant change in antioxidant against oxidant damage or apoptotic response under high oxygen concentration. For such an effect of cumulus cells, oocytes could be matured normally regardless of various oxygen concentration.