Among laboratory animals, pigs are anatomically and physiologically closer to human. Transgenic (TG) pigs can be widely applied as models of human diseases. Many researchers created TG pigs which have specific modified genome under a constitutively active promoter. A constitutively active promoter is effective to express a target gene, but the uncontrollable expression often results in unwanted outcomes. In this study, as a way to solve these problems, we tried to regulate the expression of target genes by tetracycline (Tet) on/off system. We tested the operation of Tet on/off system in TG donor cells. Miniature porcine fetal fibroblasts were transfected with universal doxycycline- inducible vector and an enhanced green fluorescent protein (eGFP) was used as the target gene. The induced transgene expression by doxycycline was detected on fluorescence microscopy. On one day after 1 μg/ml doxycycline treatment, the fluorescence intensity for TG cells was increased. And we then performed Somatic Cell Nuclear Transfer (SCNT) to confirm the working of Tet on/off system in the porcine SCNT-TG embryos. Total 649 transgenic porcine SCNT embryos were made. From these, 64 of SCNT embryos used in invitroculturewith1 μg/mldoxycycline. Among these porcine SCNT-TG embryos, 39 embryos (60.9%) were cleaved. Finally, 15 transgenic porcine SCNT embryos developed blastocyst. Induced transgene expression was observed all of cleaved embryos and blastocysts. The remaining 585 embryos were transferred to 6 surrogates. On 25 days after embryo transfer, two surrogates were diagnosed as pregnant (pregnancy rate =33.3%). On day 113 (one day prior to delivery), we obtained six cloned TG piglets from first pregnant surrogate. Unfortunately, all TG piglets died because their surrogate died suddenly at delivery time. However, we could obtain the TG cell lines from the cloned TG piglets. Being analyzed by PCR, all piglets were found to be eGFP gene targeted. Now, second pregnant surrogate have maintained at 80 days after embryo transfer and shown more than three embryonic sacs. This data suggested that, Tet on/off system can control target gene expression in transgenic porcine SCNT embryos. This result has presented new possibilities of regulation of target gene expression in cloned TG pigs by Tet on/off system. * This work was supported by a grant from Next-Generation BioGreen 21 program (# PJ008121), Rural Development Administration, Republic of Korea.
본 연구에서는 hG-CSF의 발현을 유도적으로 조절하기 위한 FIV-Tet-On lentivirus vector system을 구축하고자 하였다. hG-CSF는 호중성구 계열 세포의 증식과 분화, 생존에 영향을 미치는 물질로서, 이 유전자의 발현을 증가시키기 위하여 FIV-Tet-On vector 상의 hG-CSF나 rtTA2SM2 서열의 3' 위치에 WPRE 서열을 도입하였다. 구축된 각각의 vector는 293FT 세포에 일시적으로 transfection하여 virus를 생산하였으며, 이 virus를 일차 배양 세포인 CEF와 PFF에 감염시켰다. 각 세포에 전이된 hG-CSF의 발현 양상을 관찰하기 위하여 doxycycline을 첨가하거나 첨가하지 않은 배지에서 배양한 후 quantitative real-time PCR, Western blot과 ELISA를 이용하여 hG-CSF 유전자의 발현 정도를 비교 측정한 결과, CEF에서는 WPRE가 hG-CSF의 3' 위치에 도입된 경우에 발현량과 유도율이 가장 높은 것으로 나타났고, PFF에서는 rtTA 서열의 3'위치에 도입된 경우에 발현량과 유도율이 가장 큰 것으로 확인되었다. 이 FIV-Tet-On vector system은 형질 전환 동물의 생산이나 유전자 치료에서 문제시되는 외래 유전자의 지속적인 과다 발현에 의한 개체의 생리적인 부작용을 최소화하기 위한 해결 방법으로 제시될 수 있을 것이다.