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Production of Transgenic Male Piglet as Research Model for Alzheimer's Disease
Mi-Ryung Park,Kyong-Woon Kim,Jae-Seok Woo,Seongsoo Hwang,In-Sul Hwang1,Tae-Uk Kwak,Ji-Hyun Lim,Se-Pil Park 한국동물생명공학회(구 한국동물번식학회) 2017 발생공학 국제심포지엄 및 학술대회 Vol.2017 No.10
Alzheimer’s disease (AD) is a progressive neurodegenerative disease associated with memory loss and cognitive impairments. An AD transgenic (Tg) pig model would be useful for preclinical testing of therapeutic agents. In this study, we report the use of somatic cell nuclear transfer (SCNT) to produce transgenic pigs over-expressing the human AD related genes (APP, APPswedish, Presenilin 1, and Tau). Transgenic embryos were generated by SCNT of from ear fibroblasts expressing AD genes. A total of 1808 (average 258) SCNT embryos were transferred into 7 recipients. Pregnancy was successfully maintained in one recipient. We obtained 1 cloned male piglet from a surrogate gilts and the weight of piglet was 935 g. But, the male piglet died two days after birth. The piglet expressed AD related genes by PCR and western blot analysis. Transgenes were expressed in multiple tissues, and at especially high levels in brain. AD Tg pig might be very useful for studying the disease and for testing new therapeutics in preclinical studies of human AD.
Seongsoo Hwang,In-Sul Hwang,Dae Jin Kwon,Tae-Uk Kwak,Hyun Yang,Mi-Ryung Park,Keon Bong Oh,Sun-A Ock,Gi-Sun Im,Jeong-Woong Lee 한국수정란이식학회 2016 한국수정란이식학회 학술대회 Vol.2016 No.10
The α-Gal epitope (Galα1,3Galα1,4GlcNAc-R) is responsible for hyperacute rejection (HAR) during transgenic pig-to-non-human primate xenotransplantation. To overcome HAR after xenografts, it is essential for the inactivation of α1,3Galactosyltransferase (GT) gene by the homozygotic knocked out of GT-/- and the isoglobotrihexosylceramide synthase (iGb3s-/-). This study was performed to investigate the generation and characterization of the α1,3GT-MCP/-MCP+iGb3-/- transgenic cells. Ear fibroblast cells from the GT-MCP/-MCP pig were cultured and used to positive control. For iGb3s knock out, the Cas9-GFP-iGb3s vector was transfected into the GT-MCP/-MCP cells. The Cas9-GFP-iGb3s transfected cells were sorted and sequenced for the selection of GT-MCP/-MCP+ iGb3s-/- cells. Among the three sorted cell lines, one transgenic cell line was homozygously deleted 3 bases and 10 bases in each chromosome, respectively. To characterize an expression of α-Gal epitope, a wild type and the transgenic cells were measured by FACS Aria using BS-IB4 lectin antibody. The expression of α-Gal epitope in GT-MCP/-MCP cells (<0.01 %) were significantly down-regulated to the range of wild type (99.4 %) fibroblast cells (p<0.05). To analyze the function of iGb3s, α -Gal epitope expressions were measured for the GT-MCP/-MCP, GT-MCP/-MCP+iGb3s-/+, and GT-MCP/-MCP+iGb3s-/-. The range was 95.8%, 94.2%, and 75.8%, respectively. Interestingly, there was a negative range (16.2%) of α-Gal epitope -/- section in GT-MCP/-MCP+iGb3s-/-, compared to 2.74% of GT-MCP/-MCP+iGb3s-/+ and 1.4% of WT, respectively. Our results demonstrated that iGb3s-/-combined with GT-/- had a function to inhibit α-Gal epitope expression in pig cells. Further studies are needed to evaluate the functions of double gene knock out to minimize a HAR response after xenotransplantation.
Effect of a short-term in vitro exposure time on the production of in vitro produced piglets
Hwang, In-Sul,Kwon, Dae-Jin,Kwak, Tae-Uk,Lee, Joo-Young,Hyung, Nam-Woong,Yang, Hyeon,Oh, Keon Bong,Ock, Sun-A,Park, Eung-Woo,Im, Gi-Sun,Hwang, Seongsoo The Korean Society of Embryo Transfer 2016 한국동물생명공학회지 Vol.31 No.2
Although piglets have been delivered by embryo transfer (ET) with in vitro produced (IVP) embryos and blastocysts, a success rate has still remained lower level. Unlike mouse, human, and bovine, it is difficult to a production of piglets by in vitro fertilization (IVF) because of an inappropriate in vitro culture (IVC) system in pig. Therefore, the present study was conducted to investigate whether minimized exposure time in IVC can improve the pregnancy and delivery rates of piglets. Immediately after IVM, the oocytes were denuded and co-incubated with freshly ejaculated boar semen for 3.5 to 4 hours at $38.5^{\circ}C$ under 5% $CO_2$ in air. To avoid long-term exposure to in vitro state, we emitted IVC step after IVF. After that the presumptive zygotes were transferred into both oviducts of the surrogate on the same day or 1 day after the onset of estrus. Pregnancy was diagnosed on day 28 after ET and then was checked regularly every month by ultrasound examination. The 3 out of 4 surrogates were determined as pregnant (75%) and a total of 5 piglets (2 females and 3 males) were delivered at $118.3{\pm}2.5$ days of pregnancy period. In conclusion, a short-term exposure time may be an important factor in the production of IVP-derived piglets. It can be apply to the in vitro production system of transgenic pig by IVF, cloning, and pronuclear microinjection methods.
Seongsoo Hwang,Keon Bong Oh,Dae-Jin Kwon,Sun A Ock,Jeong-Woong Lee,Jin-Ki Park,Gi-Sun Im 한국동물번식학회 2012 Reproductive & Developmental Biology(Supplement) Vol.36 No.2s
Here we report the productions of genetically modified cloned Massachusetts General Hospital miniature pig (MGH minipig) using freshly thawed donor cells equilibrated with roscovitine. Fibroblasts were isolated from the ear skin of a 10-day-old male MGH minipig. The donor cells were divided into two groups: cultured for 3 days (culture) and freshly thawed with 500 nM roscovitine. The viability of the donor cells was significantly higher at 0 h (94.6±3.5) compared with 1 h (81.7±5.7) after thawing (p=0.028). After 1 hr of equilibration time, the proportion of G0/G1 stage in roscovitine group was not different from 0 hr group, but not in culture medium group (p<0.01), respectively. Although the developmental characteristics were not different in both methods, the pregnancy and delivery rate in freshly thawed group were significantly higher than that of culture group (p<0.01), respectively. In total, 12 TG cloned MGH minipigs were delivered and the individual cloning efficiency was from 0 to 2.54%. Taken together, the use of freshly thawed donor cells equilibrated with roscovitine may be helpful method to increase the productivity of the genetically modified cloned MGH minipigs.