• 생명과학회지
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• 제23권10호
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• pp.1223-1229
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• 2013

우르솔산(Ursolic acid)은 다양한 약재, 과일 그리고 야채 등으로 부터 분리되는 식물성 생리활성물질로서, 천연 항산화제로 널리 알려져 있지만, 배아줄기세포에서 우르솔산의 기능에 대한 연구는 아직까지 잘 이해되지 않고 있다. 본 연구에서는 저산소 상태에서 우르솔산이 배아줄기세포의 성장에 미치는 효과에 대해 조사하였다. 48시간 동안의 저산소 환경은 배아줄기세포의 미분화상태 및 전능성을 유지에 있어서 영향을 미치지 않았지만, 세포 내 활성산소종의 지속적인 생산과 이로 인한 lactate dehydrogenase 활성을 촉진 시켰다. 저산소에 의해 유도된 배아줄기세포의 산화적 스트레스는 $30{\mu}M$의 우르솔산의 처리로 인해 유의적으로 감소되었으며, 이러한 우르솔산의 활성산소 소거능력은 항산화제인 N-acetyl-cysteine (NAC)의 효과와 유사하였다. 저산소 환경은 또한 유의적으로 배아줄기세포의 생존과 증식을 감소 시킬 뿐만 아니라, 세포의 자살 및 노화를 유도함이 관찰되었지만, 강한 항산화 능력을 지닌 우르솔산은 세포를 저산소로부터 보호하여 정상수준으로 세포의 생존과 증식을 유지시키고, 세포 자살 관련 단백질(cleaved caspase-3, Bcl-2, 그리고 cIAP) 및 세포 노화 관련 단백질(beta-galactosidase)을 조절하는 탁월한 약리학적 효과를 가지고 있었다. 따라서 본 연구결과를 통해, 우르솔산은 강력한 천연 항산화제이며, 저산소에 의해 유도된 유해 기작을 제어함으로서, 배아줄기세포의 전능성을 유지시킬 수 있는 기능성 물질이라는 것을 알 수 있었다.

• Clinical and Experimental Reproductive Medicine
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• 제29권2호
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• pp.129-138
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• 2002

Objective: This study was to compare the characteristics between parthenogenetic mES (P-mES) cells and in vitro fertilization mES cells. Materials and Methods: Mouse oocytes were recovered from superovulated 4 wks hybrid F1 (C57BL/6xCBA/N) female mice. For parthenogenetic activation, oocytes were treated with 7% ethanol for 5 min and $5{\mu}g$/ml cytochalasin-B for 4 h. For IVF, oocytes were inseminated with epididymal sperm of hybrid F1 male mice ($1{times}10^6/ml$). IVF and parthenogenetic embryos were cultured in M16 medium for 4 days. Cell number count of blastocysts in those two groups was taken by differential labelling using propidium iodide (red) and bisbenzimide (blue). To establish ES cells, b1astocysts in IVF and parthenogenetic groups were treated by immunosurgery and recovered inner cell mass (ICM) cells were cultured in LIF added ES culture medium. To identify ES cells, the surface markers alkaline phosphatase, SSEA-1, 3,4 and Oct4 staining were examined in rep1ated ICM colonies. Chromosome numbers in P-mES and mES were checked. Also, in vitro differentiation potential of P-mES and mES was examined. Results: Although the cleavage rate (${\geq}$2-cell) was not different between IVF (76.3%) and parthenogenetic group (67.0%), in vitro development rate was significantly low in parthenogenetic group (24.0%) than IVF group (68.4%) (p<0.05). Cell number count of ICM and total cell in parthenogenetic b1astocysts ($9.6{\pm}3.1,\;35.1{\pm}5.2$) were signficantly lower than those of IVF blastocysts ($19.5{\pm}4.7,\;63.2{\pm}13.0$) (p<0.05). Through the serial treatment procedure such as immunosurgery, plating of ICM and colony formation, two ICM colonies in IVF group (mES, 10.0%) and three ICM colonies (P-mES, 42.9%) in parthenogenetic group were able to culture for extended duration (25 and 20 passages, respectively). Using surface markers, alkaline phosphatase, SSEA-l and Oct4 in P-mES and mES colony were positively stained. The number of chromosome was normal in ES colony from two groups. Also, in vitro neural and cardiac cell differentiation derived from mES or P-mES cells was confirmed. Conclusion: This study suggested that P-mES cells can be successfully established and that those cell lines have similar characteristics to mES cells.

• 한국발생생물학회지:발생과생식
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• 제9권2호
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• pp.105-114
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• 2005

배아 줄기세포는 세포 치료 목적을 위한 재료로써 매우 큰 잠재력을 가지고 있으며, 이러한 잠재력의 실현을 위해서 세포의 운명에 결정적인 역할을 하는 요소들을 확인하고 특정 세포의 대량 생산을 위한 방법을 개발하여야 한다. 조혈과정은 폭넓게 연구되어 왔으며, 배아 줄기세포로부터 조혈세포의 분화는 lineage commitment에 관한 연구에 좋은 모델이 된다. 본 연구에서는, 두 종류의 마우스 배아 줄기세포주 TC-1과 B6-1를 이용하여 그 특성과 조혈세포 분화능을 비교하여 보았다. 두 세포주는 작은 차이는 있으나 줄기세포로서의 특성을 공통적으로 가지고 있었다. 그러나 methylcellulose 배양 system을 사용하여 embryonic body 형성능을 확인한 결과 TC-1이 B6-1에 비해 월등함을 확인하였다. 조혈세포 분화의 추적을 위해 blast colony의 형성, progenitor assay, RT-PCR을 통한 조혈세포 분화 관련 marker의 발현 분석을 수행한 결과, TC-1은 정상적으로 조혈세포를 생성해 내지만, B6-1은 제대로 분화되지 못함을 확인할 수 있었다. 이러한 결과들은 in vitro에서 배아 줄기세포로부터 조혈세포로 분화를 유도할 때, 보다 적합한 세포주의 탐색이 요구됨을 제시하며 이는 향후 인간 배아 줄기세포주에서도 마찬가지로 적용될 수 있음을 암시한다고 사료된다.

• 한국발생생물학회지:발생과생식
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• 제14권4호
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• pp.215-223
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• 2010

배아줄기세포를 이용한 형질전환동물의 제조는 유전자의 기능 연구에 필수적이다. 특히 유전자 파괴 생쥐는 유전자의 기능 연구뿐만 아니라 사람 질병 연구에 중요한 모델이 되어 왔다. 유전자 적중법(gene targeting)과 유전자 함정법(gene trapping)은 ES 세포에서 녹아웃(knockout) 생쥐를 제조하는 대표적인 방법이다. 20여 년 전 유전자 적중법과 함정법이 최초로 개발된 이후에 이 기술은 많은 변화를 거쳤다. 특히 상동재조합에 기초한 전통적 유전자 적중법은 대량 제조기반의 조건부 유전자 적중법의 개발로 이어졌고, 유전자 적중법 및 유전자 함정법의 장점 요소의 조합은 유전자를 파괴하는 범위를 넓혔고, 유전자 적중을 더욱 효율적으로 만들었다. 이런 기술은 특정 유전자를 표적으로 하는 다양한 종류의 돌연변이 형질전환동물을 제조할 수 있게 하여 포스트게놈 시대에 요구되는 전체 유전체의 기능 연구를 더욱 효과적으로 진행시켜 줄 것이다.

• BMB Reports
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• 제42권3호
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• pp.148-153
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• 2009

Pyrrolidine dithiocarbamate (PDTC) is a stable anti-oxidant or pro-oxidant, depending on the situation, and it is widely used to inhibit the activation of NF-${\kappa}B$. We recently reported that PDTC activates the MIP-2 gene in a NF-${\kappa}B$-independent and c-Jun-dependent manner in macrophage cells. In this work, we found that PDTC activates signal transduction pathways in mouse ES cells. Among the three different mitogen-activated protein kinase (MAPK) pathways, including the extracellular-signal-regulated kinase (ERK), p38 MAP kinase, and stress-activated protein kinase (SAPK)/Jun N-terminal kinase (JNK) pathways, only the ERK pathway was significantly activated in mouse ES cells after stimulation with PDTC. Additionally, we observed a synergistic activation of ERK and induction of c-Fos after stimulation with PDTC in the presence of mouse embryonic fibroblast (MEF) conditioned medium. In contrast, another NF-${\kappa}B$ inhibitor, BMS-345541, did not activate the MAP kinase pathways or induce expression of c-Fos. These results suggest that changes in the presence of the NF-${\kappa}B$ inhibitor PDTC should be carefully considered when it used with mouse ES cells.

• 한국발생생물학회지:발생과생식
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• 제20권1호
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• pp.63-71
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• 2016

Human embryonic stem cells (hESCs) have been routinely cultured on mouse embryonic fibroblast feeder layers with a medium containing animal materials. For clinical application of hESCs, animal-derived products from the animal feeder cells, animal substrates such as gelatin or Matrigel and animal serum are strictly to be eliminated in the culture system. In this study, we performed that SNUhES32 and H1 were cultured on human amniotic fluid cells (hAFCs) with KO-SR XenoFree and a humanized substrate. All of hESCs were relatively well propagated on hAFCs feeders with xeno-free conditions and they expressed pluripotent stem cell markers, alkaline phosphatase, SSEA-4, TRA1-60, TRA1-81, Oct-4, and Nanog like hESCs cultured on STO or human foreskin fibroblast feeders. In addition, we observed the expression of nonhuman N-glycolylneuraminic acid (Neu5GC) molecules by flow cytometry, which was xenotransplantation components of contamination in hESCs cultured on animal feeder conditions, was not detected in this xeno-free condition. In conclusion, SNUhES32 and H1 could be maintained on hAFCs for humanized culture conditions, therefore, we suggested that new xeno-free conditions for clinical grade hESCs culture will be useful data in future clinical studies.

• Asian-Australasian Journal of Animal Sciences
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• 제17권12호
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• pp.1641-1646
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• 2004

The objective of this study was to generate transgenic mice expressing human resistin gene by using the tetraploidembryonic stem (ES) cell complementation method. Human resistin gene was amplified from human fetal liver cDNA library by PCR, cloned into $pCR^{(R)}$ 2.1 $TOPO^{(R)}$ vector and constructed in pCMV-Tag4C vector. Mammalian expression plasmid containing human resistin was transfected into D3-GL ES cells by Lipofectamine 2,000, and then after 10-12 days of transfection, the human resistin-expressing cells were selected with G418. In order to produce tetraploid embryos, blastomeres of diploid embryos at the two-cell stage were fused with two times of electric pulse using 60 V 30 $\mu$sec (fusion rate: 2,114/2,256, 93.5%) and cultured up to the blastocyst stage (development rate: 1,862/2,114, 94.6%). The selected 15-20 ES cells were injected into tetraploid blastocysts, and then transferred into the uteri of E 2.5 d pseudopregnant recipient mice. To investigate the gestation progress, two E 19.5 mused fetuses were recovered by Cesarean section of which one fetus was confirmed to contain human resistin gene by genomic DNA-PCR. Therefore, our findings demonstrate that tetraploid-ES mouse technology can be considered as a useful tool to produce transgenic mice for the rapid analysis of gene function in vivo.

• Reproductive and Developmental Biology
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• 제35권4호
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• pp.427-434
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• 2011

Mitochondria diseases have been reported to involve structural and functional defects of complex I-V. Especially, many of these diseases are known to be related to dysfunction of mitochondrial proton-translocating NADH-ubiquinone oxidoreductase (complex I). The dysfunction of mitochondria complex I is associated with neurodegenerative disorders, such as Parkinson's disease, Huntington's disease, and Leber's hereditary optic neuropathy (LHON). Mammalian mitochondrial proton-translocating NADH-quinone oxidoreductase (complex I) is largest and consists of at least 46 different subunits. In contrast, the NDI1 gene of Saccharomyces cerevisiae is a single subunit rotenone-insensitive NADH-quinone oxidoreductase that is located on the matrix side of the inner mitochondrial membrane. The Saccharomyces cerevisiae NDI1 gene using a recombinant adeno-associated virus vector (rAAV-NDI1) was successfully expressed in AML12 mouse liver hepatocytes and the NDI1-transduced cells were able to grow in media containing rotenone. In contrast, control cells that did not receive the NDI1 gene failed to survive. The expressed Ndi1 enzyme was recognized to be localized in mitochondria by confocal immunofluorescence microscopic analyses and immunoblotting. Using digitonin-permeabilized cells, it was shown that the NADH oxidase activity of the NDI1-transduced cells was not affected by rotenone which is inhibitor of complex I, but was inhibited by antimycin A. Furthermore, these results indicate that Ndi1 can be functionally expressed in the AML12 mouse liver hepatocytes. It is conceivable that the NDI1 gene is powerful tool for gene therapy of mitochondrial diseases caused by complex I deficiency. In the future, we will attempt to functionally express the NDI1 gene in mouse embryonic stem (mES) cell.

• 한국발생생물학회지:발생과생식
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• 제6권1호
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• pp.55-66
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• 2002

배아줄기세포(embryonic stem cell, ESC)는 미분화상태로 지속적인 계대가 가능하며, 정상 핵형과 전 분화능(pluripotency)을 가져 생체내-외에서 분화 유도시 삼배엽성의 모든 세포로 분화 가능하다. ESC를 feeder 세포 없이 부유배양하면 배아체(embryoid body, EB)를 형성하고, 초기 배아 발생과 유사한 분화 양상을 갖는다. ESC의 분화 유도가 초기배아 발생처럼 생식호르몬(GTH: FSH, LH; steroids)의 영향을 받는지는 불명하다. 본 연구는 ESC가 분화과정중 생식호르몬처리에 의해 그들 수용체가 발현되는가를 알아보고자 하였다. 순계혈통 생쥐인 C57BL/6J에서 과배란 유도후 포배를 수획하고, 유사분열적으로 불활성화된 feeder 세포와 공배양하여, 계대배양 하는 중 배아줄기세포주(JHYl)를 확립하였다. JHY1의 alkaline phosphatase 활성과 SSEA-1, 3, 4 발현을 통해 ESC임을 확인하였다. Feeder 세포 없이 ESC를 계대배양 후 호르몬처리(FSH LH E$_2$, P$_4$, T)하에서 5일 동안 부유배양하여 배아체를 형성시키고, 이후 7일 동안 부착배양하여 분화를 유도하였다. GTH와 스테로이드의 수용체 발현 실험에서 ESC에 E$_2$ 처리에 의한 LHR의 발현 증가를 제외한 나머지 호르몬 처리군에서 ESC보다 낮은 생식호르몬의 수용체 발현이 관찰되었다. 생식호르몬을 농도별 수용체 발현 정도는 증감되지 않았다. 미분화 ESC 표지유전자인 Oct-4는 호르몬 처리군에서도 발현되었다. 각 배엽의 표지유전자들(영양세포, handl; 외배엽성, keratin와fgf-5; 중배엽성, enolase와 $\alpha$ -globin; 내배엽성, gata-4와 $\alpha$ -fetoprotein) 등의 발현 양상을 조사한 결과 호르몬 처리후 내배엽성 표지유전자외에는 발현 증가가 관찰되지 않았다. 즉 생식호르몬에 의해 gata-4, $\alpha$-fetoprotein의 발현이 증가되는 것으로 보아 내배엽성 계열로의 분화 유도가 이루어진 것으로 사료된다.

• 한국자원식물학회지
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• 제25권6호
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• pp.693-699
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• 2012

This study was conducted to investigate the effects of Woohwangcheungsimweun (ox bezoar), deer antlers, and wild ginseng on induction of cardiomyocyte differentiation using the established mouse embryonic stem (ES) cells. The expression of atrial natriuretic peptide (ANP) was highest in Woohwangcheungsimweun treatment group. The expression of rabbit anti-GATA-4(GATA-4) and troponin (TnI) were highest in wild ginseng and Woohwangcheungsimweun treatment groups, respectively. Fluorescence activated cell sorting (FACS) analysis showed that the expression of ANP was highest in Dimethyl sulfoxide(DMSO) and Woohwangcheungsimweun treatment groups. The expression of GATA-4 was relatively high in wild ginseng treatment group. The expression of TnI was highest in Woohwangcheungsimweun treatment group. In the gene expression analysis, DMSO greatly inhibited GATA-4 expression to 25% of control. Woohwangcheungsimweun treatment caused to increase cTnI and cardiac ANP expression significantly. Wild ginseng extract upregulated GATA-4 gene expression. In conclusion, DMSO widely used as cardiomyocyte differentiation inducer did not show significant effects on the expression of ANP, GATA-4 and TnI in this study. Woohwangcheungsimweun showed upregulation of ANP and TnI expression. Wild ginseng extract showed greater effects than DMSO on GATA-4 expression. These results might suggest that the combination of Woohwangcheungsimweun and wild ginseng extract treatment can be expected to increase expressions of all three genes.