• BMB Reports
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• 제48권12호
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• pp.668-676
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• 2015

Pluripotent stem cells only exist in a narrow window during early embryonic development, whereas multipotent stem cells are abundant throughout embryonic development and are retainedin various adult tissues and organs. While pluripotent stem cell lines have been established from several species, including mouse, rat, and human, it is still challenging to establish stable multipotent stem cell lines from embryonic or adult tissues. Based on current knowledge, we anticipate that by manipulating extrinsic and intrinsic signaling pathways, most if not all types of stem cells can be maintained in a long-term culture. In this article, we summarize current culture conditions established for the long-term maintenance of authentic pluripotent and multipotent stem cells and the signaling pathways involved. We also discuss the general principles of stem cell maintenance and propose several strategies on the establishment of novel stem cell lines through manipulation of signaling pathways.

• 한국발생생물학회지:발생과생식
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• 제15권1호
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• pp.41-52
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• 2011

In the present study, embryoid bodies (EBs) obtained from induced pluripotent stem cells (iPSCs) were induced to differentiate into germ lineage cells by treatment with bone morphogenetic protein 4 (BMP4) and retinoic acid (RA). The results were compared to the results for embryonic stem cells (ESCs) and multipotent spermatogonial stem cells (mSSCs) and quantified using immunocytochemical analysis of germ cell-specific markers (integrin-${\alpha}6$, GFR-${\alpha}1$, CD90/Thy1), fluorescence activating cell sorting (FACS), and real time-RT-PCR. We show that the highest levels of germ cell marker-expressing cells were obtained from groups treated with 10 ng/$m{\ell}$ BMP4 or 0.01 ${\mu}M$ RA. In the BMP4-treated group, GFR-${\alpha}1$ and CD90/Thy-1 were highly expressed in the EBs of iPSCs and ESCs compared to EBs of mSSCs. The expression of Nanog was much lower in iPSCs compared to ESCs and mSSCs. In the RA treated group, the level of GFR-${\alpha}1$ and CD90/Thy-1 expression in the EBs of mSSCs Induced pluripotent stem cells, Mouse embryonic stem cells, Multipotent spermatogonial stem cells, Germ cell lineage, Differentiation potential. was much higher than the levels found in the EBs of iPSCs and similar to the levels found in the EBs of ESCs. FACS analysis using integrin-${\alpha}6$, GFR-${\alpha}1$, CD90/Thy1 and immunocytochemistry using GFR-${\alpha}1$ antibody showed similar gene expression results. Therefore our results show that iPSC has the potential to differentiate into germ cells and suggest that a protocol optimizing germ cell induction from iPSC should be developed because of their potential usefulness in clinical applications requiring patient-specific cells.

• Clinical and Experimental Reproductive Medicine
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• 제35권1호
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• pp.39-48
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• 2008

목 적: 본 연구에서는 신생 생쥐 고환으로부터 다분화능 생식줄기세포주 (MGSCs)를 확립하고, 배아체 형성을 통한 삼배엽성 세포로의 분화 가능성을 확인하고자 하였다. 연구방법: 고환에서 유래한 MGSCs를 확립하기 위하여 생후 $2{\sim}3$일된 생쥐 고환 조직으로부터 세포들을 분리하여 1% FBS를 첨가한 생쥐 배아줄기세포주 배양조건에서 배양하였다. MGSCs 콜로니가 형성된 후에는 배양액의 FBS의 농도를 15%로 높였다. 이러한 과정으로 확립된 MGSCs의 미분화 및 분화 특성을 배아줄기세포주와 비교, 분석하였다. 결 과: 신생 생쥐 고환 조직에서 수획한 세포들로 실시한 9번의 배양실험에서 2개의 MGSCs 세포주를 확립하였다. MGSCs 세포주와 생쥐 배아줄기세포 모두에서 미분화 표지인자인 Thy-1, Oct-4, Nanog, Sox2의 발현과 alkaline phosphatase 활성을 관찰할 수 있었으며, MGSCs의 미세구조 또한 생쥐 배아줄기세포와 유사하였다. MGSCs에서 형성된 배아체에서 삼배엽성 표지유전자의 발현을 확인하였다. 결 론: 본 연구의 결과는 배아줄기세포의 윤리적인 문제점을 극복할 수 있는 고환 유래의 다분화능 MGSCs가 생물공학과 재생의학에서 효율적으로 이용될 수 있는 가능성을 보여준 것으로 생각된다.

• Molecules and Cells
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• 제27권6호
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• pp.635-640
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• 2009

Testis-derived germline stem (GS) cells can undergo reprogramming to acquire multipotency when cultured under appropriate culture conditions. These multipotent GS (mGS) cells have been known to differ from GS cells in their DNA methylation pattern. In this study, we examined the DNA methylation status of the H19 imprinting control region (ICR) in multipotent adult germline stem (maGS) cells to elucidate how epigenetic imprints are altered by culture conditions. DNA methylation was analyzed by bisulfite sequencing PCR of established maGS cells cultured in the presence of glial cell line-derived neurotrophic factor (GDNF) alone or both GDNF and leukemia inhibitory factor (LIF). The results showed that the H19 ICR in maGS cells of both groups was hypermethylated and had an androgenetic pattern similar to that of GS cells. In line with these data, the relative abundance of the Igf2 mRNA transcript was two-fold higher and that of H19 was three fold lower than in control embryonic stem cells. The androgenetic DNA methylation pattern of the H19 ICR was maintained even after 54 passages. Furthermore, differentiating maGS cells from retinoic acid-treated embryoid bodies maintained the androgenetic imprinting pattern of the H19 ICR. Taken together these data suggest that our maGS cells are epigenetically stable for the H19 gene during in vitro modifications. Further studies on the epigenetic regulation and chromatin structure of maGS cells are therefore necessary before their full potential can be utilized in regenerative medicine.

• 대한음성언어의학회:학술대회논문집
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• 대한음성언어학회 2015년도 제42차 춘계학술대회
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• pp.19-19
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• 2015

• 대한생식의학회:학술대회논문집
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• 대한불임학회 2006년도 The 5th Biannual Meeting of Pacific Rim Society for Fertility and Sterility
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• pp.173.1-173.1
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• 2006

• 대한치과교정학회지
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• 제42권6호
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• pp.307-317
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• 2012

Objective: The purpose of this study was to investigate the isolation and characterization of multipotent human periodontal ligament (PDL) stem cells and to assess their ability to differentiate into bone, cartilage, and adipose tissue. Methods: PDL stem cells were isolated from 7 extracted human premolar teeth. Human PDL cells were expanded in culture, stained using anti-CD29, -CD34, -CD44, and -STRO-1 antibodies, and sorted by fluorescent activated cell sorting (FACS). Gingival fibroblasts (GFs) served as a positive control. PDL stem cells and GFs were cultured using standard conditions conducive for osteogenic, chondrogenic, or adipogenic differentiation. Results: An average of $152.8{\pm}27.6$ colony-forming units was present at day 7 in cultures of PDL stem cells. At day 4, PDL stem cells exhibited a significant increase in proliferation (p < 0.05), reaching nearly double the proliferation rate of GFs. About $5.6{\pm}4.5%$ of cells in human PDL tissues were strongly STRO-1-positive. In osteogenic cultures, calcium nodules were observed by day 21 in PDL stem cells, which showed more intense calcium staining than GF cultures. In adipogenic cultures, both cell populations showed positive Oil Red O staining by day 21. Additionally, in chondrogenic cultures, PDL stem cells expressed collagen type II by day 21. Conclusions: The PDL contains multipotent stem cells that have the potential to differentiate into osteoblasts, chondrocytes, and adipocytes. This adult PDL stem cell population can be utilized as potential sources of PDL in tissue engineering applications.

• 식물조직배양학회지
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• 제27권6호
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• pp.423-428
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• 2000

In 1997 when cloned sheep Dolly and soon after Polly were born, it had become head-line news because in the former the nucleus that gave rise to the lamb came from cells of six-year-old adult sheep and in the latter case a foreign gene was inserted into the donor nucleus to make the cloned sheep produce human protein, factor IX, in e milk. In the last few years, once the realm of science fiction, cloned mammals especially in livestock have become almost commonplace. What the press accounts often fail to convey, however, is that behind every success lie hundreds of failures. Many of the nuclear-transferred egg cells fail to undergo normal cell divisions. Even when an embryo does successfully implant in the womb, pregnancy often ends in miscarriage. A significant fraction of the animals that are born die shortly after birth and some of those that survived have serious developmental abnormalities. Efficiency remains at less than one % out of some hundred attempts to clone an animal. These facts show that something is fundamentally wrong and enormous hurdles must be overcome before cloning becomes practical. Cloning researchers now tent to put aside their effort to create live animals in order to probe the fundamental questions on cell biology including stem cells, the questions of whether the hereditary material in the nucleus of each cell remains intact throughout development, and how transferred nucleus is reprogrammed exactly like the zygotic nucleus. Stem cells are defined as those cells which can divide to produce a daughter cell like themselves (self-renewal) as well as a daughter cell that will give rise to specific differentiated cells (cell-differentiation). Multicellular organisms are formed from a single totipotent stem cell commonly called fertilized egg or zygote. As this cell and its progeny undergo cell divisions the potency of the stem cells in each tissue and organ become gradually restricted in the order of totipotent, pluripotent, and multipotent. The differentiation potential of multipotent stem cells in each tissue has been thought to be limited to cell lineages present in the organ from which they were derived. Recent studies, however, revealed that multipotent stem cells derived from adult tissues have much wider differentiation potential than was previously thought. These cells can differentiate into developmentally unrelated cell types, such as nerve stem cell into blood cells or muscle stem cell into brain cells. Neural stem cells isolated from the adult forebrain were recently shown to be capable of repopulating the hematopoietic system and produce blood cells in irradiated condition. In plants although the term$\boxDr$ stem cell$\boxUl$is not used, some cells in the second layer of tunica at the apical meristem of shoot, some nucellar cells surrounding the embryo sac, and initial cells of adventive buds are considered to be equivalent to the totipotent stem cells of mammals. The telomere ends of linear eukaryotic chromosomes cannot be replicated because the RNA primer at the end of a completed lagging strand cannot be replaced with DNA, causing 5' end gap. A chromosome would be shortened by the length of RNA primer with every cycle of DNA replication and cell division. Essential genes located near the ends of chromosomes would inevitably be deleted by end-shortening, thereby killing the descendants of the original cells. Telomeric DNA has an unusual sequence consisting of up to 1,000 or more tandem repeat of a simple sequence. For example, chromosome of mammal including human has the repeating telomeric sequence of TTAGGG and that of higher plant is TTTAGGG. This non-genic tandem repeat prevents the death of cell despite the continued shortening of chromosome length. In contrast with the somatic cells germ line cells have the mechanism to fill-up the 5' end gap of telomere, thus maintaining the original length of chromosome. Cem line cells exhibit active enzyme telomerase which functions to maintain the stable length of telomere. Some of the cloned animals are reported prematurely getting old. It has to be ascertained whether the multipotent stem cells in the tissues of adult mammals have the original telomeres or shortened telomeres.

• 생명과학회지
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• 제30권4호
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• pp.394-401
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• 2020

배아줄기세포는 만능세포이기 때문에 동물에게 주입되면 종양으로 발달할 수도 있다. 따라서 연구자들은 종양 형성으로부터 비교적 자유로운 성체세포로부터 세포 특이적 줄기세포(성체줄기세포)를 확보하는데 관심을 두고 있다. 성체줄기세포는 제한적으로 세포분열을 할 수 있고 지정된 특정 세포로만 발달할 수 있다. 포유동물에서 각 조직의 세포들은 자연적 생리조건하에서는 역분화 혹은 교차분화에 의해 성체줄기세포로 전환되지 않는다. 따라서 일본 연구자들에 의하여 2006년 성체세포의 리프로그램에 의한 유도만능줄기세포(iPSCs) 기술이 소개되어 성체줄기세포 연구의 새로운 장을 열었다. 비록 연구현장에서 iPSCs 기술이 폭 넓게 이용되지만, 리프로그램의 안정성뿐만 아니라 유전체에 외래유전자의 도입 등의 문제점도 있다. Reversine은 iPSCs 보다 2년 앞서 발견된 작은 화학적 합성 분자인 퓨린 유사체이다. Reversine은 분화된 세포를 리프로그램에 의한 역분화를 유도하여 다능성 줄기세포로 전환시킬 수 있으며, 적절한 분화조건하에서 다른 세포로 교차분화를 유도할 수도 있다. 따라서 reversine은 iPSCs가 가지고 있는 문제점을 극복하고 화학적인 방법을 이용하여 성체세포를 다능성 줄기세포로 전환시킬 수 있는 물질로 활용될 수 있다. Reversine이 백색지방세포를 갈색지방형세포(beige cell)로 전변시켜 열발산에 의한 에너지소비를 촉진함을 제시하여 항비만인자로서 그 가능성을 열어 놓았다. Reversine은 세포 역분화의 기능적 역할 이외에 항암 인자로서 또 다른 기능들이 보고되고 있어 앞으로 여러 분야에서 그 이용성이 기대되는 물질이다.

• BMB Reports
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• 제51권4호
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• pp.194-199
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• 2018

Mesenchymal stem cells (MSCs) have shown great potential in treating bone deficiency. Human adipose-derived stem cells (HASCs) are multipotent progenitor cells with multi-lineage differentiation potential. Human amnion-derived mesenchymal stem cells (HAMSCs) are capable of promoting osteogenic differentiation of MSCs. In this study, we investigated the effect of HAMSCs on HASCs by a transwell co-culture system. HAMSCs promoted proliferation, osteogenic differentiation, angiogenic potential and adiponectin (APN) secretion of HASCs. Moreover, the positive effect of HAMSCs was significantly inhibited by U0126, a highly selective inhibitor of extracellular signaling-regulated kinase 1/2 (ERK1/2) mitogen-activated protein kinase (MAPK) signaling pathway. These observations suggested that HAMSCs induced bone regeneration in HASCs via ERK1/2 MAPK signaling pathway.