Study on Embryo Transfer System for Production of Transgenic Pigs

Seungwon Na,Euncheol Lee,Ghangyong Kim,Kyuhong Min,Youngkwang Yu,Pantu Kumar Roy,Xun Fang,Bahia Mohamed Salih Hassan,Kiyoung Yoon,Sangtae Shin,Jongki Cho 한국수정란이식학회 2015 한국동물생명공학회지 Vol.30 No.4

In the last 10 years, porcine somatic cell nuclear transfer to generate transgenic pig has been performed tremendous development with introduction and knockout of many genes. However, efficiency of porcine somatic cell nuclear transfer is still low and embryo transfer (ET) is one of important step for production efficiency. In porcine ET for production of transgenic cloned pig, we can consider many of points to increase production rates. In respect of seasonality and weather, porcine ET usually is not performed in summer and winter. Cloned transgenic embryos must be transferred into reproductive tracts of recipients where embryos are located after natural fertilization with similar estrous cycle. If cloned embryos with 2∼4 cell stage are transferred, they must be transferred into oviducts in periovulatory stage. Number and deposition sites of transferred cloned embryos are important. And we must compare the methods of ET between surgical and non-surgical ones in respect of production efficiency. Sow recipients after natural estrus is most preferred recipients however its cost is must be considered. Here we will review many of current studies about porcine embryo transfer to increase production efficiency of transgenic pigs and strategies for further studies.

Study on Embryo Transfer System for Production of Transgenic Pigs

Seungwon Na,Euncheol Lee,Ghangyong Kim,Kyuhong Min,Youngkwang Yu,Pantu Kumar Roy,Xun Fang,Bahia Mohamed Salih Hassan,Kiyoung Yoon,Sangtae Shin,조종기 사단법인 한국동물생명공학회 2015 한국동물생명공학회지 Vol.30 No.4

In the last 10 years, porcine somatic cell nuclear transfer to generate transgenic pig has been performed tremendous development with introduction and knockout of many genes. However, efficiency of porcine somatic cell nuclear transfer is still low and embryo transfer (ET) is one of important step for production efficiency. In porcine ET for production of transgenic cloned pig, we can consider many of points to increase production rates. In respect of seasonality and weather, porcine ET usually is not performed in summer and winter. Cloned transgenic embryos must be transferred into reproductive tracts of recipients where embryos are located after natural fertilization with similar estrous cycle. If cloned embryos with 2∼4 cell stage are transferred, they must be transferred into oviducts in periovulatory stage. Number and deposition sites of transferred cloned embryos are important. And we must compare the methods of ET between surgical and non-surgical ones in respect of production efficiency. Sow recipients after natural estrus is most preferred recipients however its cost is must be considered. Here we will review many of current studies about porcine embryo transfer to increase production efficiency of transgenic pigs and strategies for further studies.

Optimization of Post-Activation Systems to Improve the Embryonic Development in Porcine Parthenogenesis and Somatic Cell Nuclear Transfer

Roy, Pantu Kumar,Kim, Ghangyong,Fang, Xun,Hassan, Bahia MS,Soysa, Mahanama De,Shin, Sang Tae,Cho, Jong Ki The Korean Society of Embryo Transfer 2017 한국동물생명공학회지 Vol.32 No.3

This study was conducted to establish the optimal chemical post-activation conditions in porcine embryonic development after parthenogenesis (PA) and somatic cell nuclear transfer (SCNT) using 4 different chemical compositions (cytochalasin B (CB), cyclohexamide (CHX), demecolcine (DC), 6-dimethylaminopurine (DMAP). Porcine embryos were produced by PA and SCNT and then, cultured for post-activation with CB ($7.5{\mu}g/mL$), CB ($7.5{\mu}g/mL$) + CHX ($10{\mu}g/mL$), CB ($7.5{\mu}g/mL$) +DC ($0.4{\mu}g/mL$), and CB ($7.5{\mu}g/mL$) + DMAP (2 mM). In PA embryonic development, cleavage rates have been significantly higher in CB group (94.7%) and CB+DMAP group (94.1%) than that of CB+CHX and CB+DC group (88.1 and 84.3%, respectively). There have been no significant differences in blastocyst formation rates among the four groups. In cell number of blastocyst was shown in CB group (42.3%) significantly higher than CB+CHX and CB+DC group (40.6 and 40.6%, respectively). In SCNT embryonic development, CB+DMAP group (89.7%) significant differences were found on embryo cleavage rates when compared with other three groups. Blastocyst formation rates in CB+DMAP group (26.9%) were significantly higher when compared with CB, CB+CHX, and CB+DC groups (25.5, 20.2, and 22.1%, respectively). In blastocyst cell number, CB+DMAP group (41.4%) was found higher significant difference compared with other three groups. Additionally, we have investigated survivin expression in early development stages of porcine SCNT embryos for more confirmation. Our results establish that CB group and CB+DMAP group for 4 h during post-activation improves pre-implantation improvement of PA and SCNT embryos.

Optimization of Post-Activation Systems to Improve the Embryonic Development in Porcine Parthenogenesis and Somatic Cell Nuclear Transfer

Pantu Kumar Roy,Ghangyong Kim,Xun Fang,Bahia MS Hassan,Mahanama De Soysa,Sang Tae Shin,Jong Ki Cho 한국수정란이식학회 2017 한국동물생명공학회지 Vol.32 No.3

This study was conducted to establish the optimal chemical post-activation conditions in porcine embryonic development after parthenogenesis (PA) and somatic cell nuclear transfer (SCNT) using 4 different chemical compositions (cytochalasin B (CB), cyclohexamide (CHX), demecolcine (DC), 6-dimethylaminopurine (DMAP). Porcine embryos were produced by PA and SCNT and then, cultured for post-activation with CB (7.5 μg/mL), CB (7.5 μg/mL) + CHX (10 μg/mL), CB (7.5 μg/mL) +DC (0.4 μg/mL), and CB (7.5 μg/mL) + DMAP (2 mM). In PA embryonic development, cleavage rates have been significantly higher in CB group (94.7%) and CB+DMAP group (94.1%) than that of CB+CHX and CB+DC group (88.1 and 84.3%, respectively). There have been no significant differences in blastocyst formation rates among the four groups. In cell number of blastocyst was shown in CB group (42.3%) significantly higher than CB+CHX and CB+DC group (40.6 and 40.6%, respectively). In SCNT embryonic development, CB+DMAP group (89.7%) significant differences were found on embryo cleavage rates when compared with other three groups. Blastocyst formation rates in CB+DMAP group (26.9%) were significantly higher when compared with CB, CB+CHX, and CB+DC groups (25.5, 20.2, and 22.1%, respectively). In blastocyst cell number, CB+DMAP group (41.4%) was found higher significant difference compared with other three groups. Additionally, we have investigated survivin expression in early development stages of porcine SCNT embryos for more confirmation. Our results establish that CB group and CB+DMAP group for 4 h during post-activation improves pre-implantation improvement of PA and SCNT embryos.

Study on Embryo Transfer System for Production of Transgenic Pigs

Na, Seungwon,Lee, Euncheol,Kim, Ghangyong,Min, Kyuhong,Yu, Youngkwang,Roy, Pantu Kumar,Fang, Xun,Hassan, Bahia Mohamed Salih,Yoon, Kiyoung,Shin, Sangtae,Cho, Jongki The Korean Society of Embryo Transfer 2015 한국동물생명공학회지 Vol.30 No.4

In the last 10 years, porcine somatic cell nuclear transfer to generate transgenic pig has been performed tremendous development with introduction and knockout of many genes. However, efficiency of porcine somatic cell nuclear transfer is still low and embryo transfer (ET) is one of important step for production efficiency. In porcine ET for production of transgenic cloned pig, we can consider many of points to increase production rates. In respect of seasonality and weather, porcine ET usually is not performed in summer and winter. Cloned transgenic embryos must be transferred into reproductive tracts of recipients where embryos are located after natural fertilization with similar estrous cycle. If cloned embryos with 2~4 cell stage are transferred, they must be transferred into oviducts in periovulatory stage. Number and deposition sites of transferred cloned embryos are important. And we must compare the methods of ET between surgical and non-surgical ones in respect of production efficiency. Sow recipients after natural estrus is most preferred recipients however its cost is must be considered. Here we will review many of current studies about porcine embryo transfer to increase production efficiency of transgenic pigs and strategies for further studies.

Study on Chemicals for Post-activation in Porcine Somatic Cell Nuclear Transfer

Kyuhong Min,Seungwon Na,Euncheol Lee,Ghangyong Kim,Youngkwang Yu,Pantu Kumar Roy,Xun Fang,MB Salih,Jongki Cho 한국수정란이식학회 2016 한국동물생명공학회지 Vol.31 No.2

Since the first success of animal cloning, somatic cell nuclear transfer presented various ideas in many research areas such as regenerative medicine. However, SCNT embryos has poor survival rate. Therefore, numerous researches carried out to enhance the developmental capability of porcine nuclear transfer embryos. Cytochalasin B, demecolcine, latrunculin A, cycloheximide and 6-dimethylaminopurine are efficient chemicals treated in post-activation procedure to increase the efficiency of SCNT. This review study is aim to investigate the effects of these chemicals applied to post-activation in porcine SCNT. Cytochalasin B, demecolcine, latrunculin A are cytoskeletal manuplators inhibit extrusion of pseudo-polar body. Cytochalasin B and demecolcine showed considerably higher blastocyst formation proportion (26-28%) compared to when they are not treated (16%). And when latrunculin A was treated for postactivation, blastocyst formation proportion was increased in SCNT embryos exposed to LA (38%) than those in control (14%). On the other hand, cycloheximide and 6-dimethylaminopurine are protein synthesis and kinase inhibitors. And they help to maintain Ca2+ fluctuation in oocytes. Cleavage and blastocyst rates of NT embryos were increased when they were exposed to CHX (16.9% and 5.4% with no CHX).And 6-DMAP also showed higher blastocyst formation (21.5% compared to 15.7%, control). Although all these chemicals have different mechanisms, they showed developmental competence enhancement in NT embryos. However, there are only few studies comparing each chemical’s post-activation effect. Therefore, further research and study should be conducted to find optimal chemical for improving the efficiency of SCNT.

Study on Chemicals for Post-activation in Porcine Somatic Cell Nuclear Transfer

Min, Kyuhong,Na, Seungwon,Lee, Euncheol,Kim, Ghangyong,Yu, Youngkwang,Roy, Pantu Kumar,Fang, Xun,Salih, MB,Cho, Jongki The Korean Society of Embryo Transfer 2016 한국동물생명공학회지 Vol.31 No.2

Since the first success of animal cloning, somatic cell nuclear transfer presented various ideas in many research areas such as regenerative medicine. However, SCNT embryos has poor survival rate. Therefore, numerous researches carried out to enhance the developmental capability of porcine nuclear transfer embryos. Cytochalasin B, demecolcine, latrunculin A, cycloheximide and 6-dimethylaminopurine are efficient chemicals treated in post-activation procedure to increase the efficiency of SCNT. This review study is aim to investigate the effects of these chemicals applied to post-activation in porcine SCNT. Cytochalasin B, demecolcine, latrunculin A are cytoskeletal manuplators inhibit extrusion of pseudo-polar body. Cytochalasin B and demecolcine showed considerably higher blastocyst formation proportion (26-28%) compared to when they are not treated (16%). And when latrunculin A was treated for postactivation, blastocyst formation proportion was increased in SCNT embryos exposed to LA (38%) than those in control (14%). On the other hand, cycloheximide and 6-dimethylaminopurine are protein synthesis and kinase inhibitors. And they help to maintain $Ca^{2+}$ fluctuation in oocytes. Cleavage and blastocyst rates of NT embryos were increased when they were exposed to CHX (16.9% and 5.4% with no CHX).And 6-DMAP also showed higher blastocyst formation (21.5% compared to 15.7%, control). Although all these chemicals have different mechanisms, they showed developmental competence enhancement in NT embryos. However, there are only few studies comparing each chemical's post-activation effect. Therefore, further research and study should be conducted to find optimal chemical for improving the efficiency of SCNT.

Production of genetically modified pigs expressing human insulin and C-peptide as a source of islets for xenotransplantation

Cho, Bumrae,Lee, Eun-Jin,Ahn, Sun Mi,Kim, Ghangyong,Lee, Sang Hoon,Ji, Dal-Young,Kang, Jung-Taek Springer-Verlag 2019 Transgenic research Vol.28 No.5

<P> Islet xenotransplantation is a promising treatment for type I diabetes. Numerous studies of islet xenotransplantation have used pig-to-nonhuman primate transplantation models. Some studies reported long-term survival and successful function of porcine islets in diabetic monkeys. Genetic engineering techniques may improve the survival and function of porcine islets. A recent study reported the generation of transgenic pigs expressing human insulin rather than porcine insulin by changing one amino acid at the end of the β-chain in insulin. However, C-peptide from pigs still existed. In this study, we generated transgenic pigs expressing human proinsulin to express human insulin and C-peptide using fibroblasts from proinsulin knockout pigs as donor cells for somatic cell nuclear transfer. Eleven live piglets were delivered from three surrogates and characterized to confirm the genotype and phenotype of the generated piglets. Genotype analysis of the generated piglets showed that five of the eleven piglets contained the human proinsulin gene. Insulin expression was confirmed in the serum and pancreas in two of the five piglets. C-peptide derived from human proinsulin was also confirmed by liquid chromatography tandem mass spectrometry. Non-fasting blood glucose level was measured to verify the function of the insulin derived from the human proinsulin. Two piglets expressing insulin showed normal glucose levels similar to that in the wild-type control. In conclusion, human insulin- and C-peptide-expressing pigs without porcine insulin and C-peptide were successfully established. These pigs can be used as a source of islets for islet xenotransplantation. </P>

Effect of Insulin Supplement on Development of Porcine Parthenogenetic Embryos

Yu, Youngkwang,Roy, Pantu Kumar,Min, Kyuhong,Na, Seungwon,Lee, Euncheol,Kim, Ghangyong,Fang, Xun,Salih, MB,Cho, Jongki The Korean Society of Embryo Transfer 2016 한국동물생명공학회지 Vol.31 No.2

This study is performed to evaluate the effect of insulin in the porcine parthenogenetic embryo development. In porcine embryo culture, insulin is helpful factor in the process of embryo development. To identify this, insulin is used in pig embryos development. Therefore, this study was performed to investigate the effect of insulin on early embryonic development in pigs. For that, insulin positive or negative (0, 10 ug/mL) was supplemented in the porcine IVM media and then compared two groups divided by the cytoplasm of the black groups and white ring groups based on the distribution of lipid material of the cell cytoplasm in microscope. In maturation rates of porcine oocytes, significant higher black group rates were shown in the insulin positive groups compared with other groups ($56.0{\pm}2.1$ vs $46.2{\pm}0.3$). In the embryo culture, black groups were showed the significant higher cleavage rates ($82.1{\pm}0.8$, $78.3{\pm}0.1$ vs $63.2{\pm}0.3$, $63.4{\pm}0.0$), and blastocyst formation rates ($15.5{\pm}3.6$, $16.6{\pm}0.4$ vs $11.7{\pm}1.3$, $7.4{\pm}0.2$) regardless of whether the addition of insulin. Also, black groups were showed higher cell number of blastocyst ($33.2{\pm}2.5$, $35.5{\pm}2.6$ vs $31.2{\pm}2.1$, $31.3{\pm}2.2$). In conclusion, supplement of insulin producing black group in vitro maturation, it was effective in vitro maturation and embryonic development of pig embryos.

Effect of Insulin Supplement on Development of Porcine Parthenogenetic Embryos

Youngkwang Yu,Pantu Kumar Roy,Kyuhong Min,Seungwon Na,Euncheol Lee,Ghangyong Kim,Xun Fang,MB Salih,Jongki Cho 한국수정란이식학회 2016 한국동물생명공학회지 Vol.31 No.2

This study is performed to evaluate the effect of insulin in the porcine parthenogenetic embryo development. In porcine embryo culture, insulin is helpful factor in the process of embryo development. To identify this, insulin is used in pig embryos development. Therefore, this study was performed to investigate the effect of insulin on early embryonic development in pigs. For that, insulin positive or negative (0, 10 ug/mL) was supplemented in the porcine IVM media and then compared two groups divided by the cytoplasm of the black groups and white ring groups based on the distribution of lipid material of the cell cytoplasm in microscope. In maturation rates of porcine oocytes, significant higher black group rates were shown in the insulin positive groups compared with other groups (56.0±2.1 vs 46.2±0.3). In the embryo culture, black groups were showed the significant higher cleavage rates (82.1±0.8, 78.3±0.1 vs 63.2±0.3, 63.4±0.0), and blastocyst formation rates (15.5±3.6, 16.6±0.4 vs 11.7±1.3, 7.4±0.2) regardless of whether the addition of insulin. Also, black groups were showed higher cell number of blastocyst (33.2±2.5, 35.5±2.6 vs 31.2±2.1, 31.3±2.2). In conclusion, supplement of insulin producing black group in vitro maturation, it was effective in vitro maturation and embryonic development of pig embryos.