• 제목/요약/키워드: Human Embryonic Neural Stem Cells

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Monitoring the Differentiation and Migration Patterns of Neural Cells Derived from Human Embryonic Stem Cells Using a Microfluidic Culture System

  • Lee, Nayeon;Park, Jae Woo;Kim, Hyung Joon;Yeon, Ju Hun;Kwon, Jihye;Ko, Jung Jae;Oh, Seung-Hun;Kim, Hyun Sook;Kim, Aeri;Han, Baek Soo;Lee, Sang Chul;Jeon, Noo Li;Song, Jihwan
    • Molecules and Cells
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    • 제37권6호
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    • pp.497-502
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    • 2014
  • Microfluidics can provide unique experimental tools to visualize the development of neural structures within a microscale device, which is followed by guidance of neurite growth in the axonal isolation compartment. We utilized microfluidics technology to monitor the differentiation and migration of neural cells derived from human embryonic stem cells (hESCs). We co-cultured hESCs with PA6 stromal cells, and isolated neural rosette-like structures, which subsequently formed neurospheres in suspension culture. Tuj1-positive neural cells, but not nestin-positive neural precursor cells (NPCs), were able to enter the microfluidics grooves (microchannels), suggesting that neural cell-migratory capacity was dependent upon neuronal differentiation stage. We also showed that bundles of axons formed and extended into the microchannels. Taken together, these results demonstrated that microfluidics technology can provide useful tools to study neurite outgrowth and axon guidance of neural cells, which are derived from human embryonic stem cells.

In Vitro Neural Cell Differentiation Derived from Human Embryonic Stem Cells: I. Effect of Neurotrophic Factors on Neural Progenitor Cells

  • Kim Eun-Yeong;Jo Hyeon-Jeong;Choe Gyeong-Hui;An So-Yeon;Jeong Gil-Saeng;Park Se-Pil;Im Jin-Ho
    • 한국동물번식학회:학술대회논문집
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    • 한국동물번식학회 2002년도 춘계학술발표대회 발표논문초록집
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    • pp.18-18
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    • 2002
  • This study was to investigate the effect of neurotrophic factors on neural cell differentiation in vitro derived from human embryonic stem (hES, MB03) cells. For neural progenitor cell formation derived from hES cells, we produced embryoid bodies (EB: for 5 days, without mitogen) from hES cells and then neurospheres (for 7 - 10 days, 20 ng/㎖ of bFGF added N2 medium) from EB. And then finally for the differentiation into mature neuron cells, neural progenitor cells were cultured in ⅰ) N2 medium (without bFGF), ⅱ) N2 supplemented with brain derived neurotrophic factor (BDNF, 5ng/㎖) or ⅲ) N2 supplemented with platelet derived growth factor-bb (PDGF-bb, 20ng/㎖) for 2 weeks. (omitted)

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In Vitro Neural Cell Differentiation Derived from Human Embryonic Stem Cells: II. Generation of Specific Neurons from Neural Progenitor Cells Treated with BDNF and PDGF

  • Jo Hyeon-Jeong;Kim Eun-Yeong;Choe Gyeong-Hui;An So-Yeon;Park Se-Pil;Im Jin-Ho
    • 한국동물번식학회:학술대회논문집
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    • 한국동물번식학회 2002년도 춘계학술발표대회 발표논문초록집
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    • pp.84-84
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    • 2002
  • This study was to investigate generation of the specific neuronal cell in vitro from the neural progenitors derived from human embryonic stem (hES, MB03) cells. For the neural progenitor cell formation, we produced embryoid bodies (EB: for 5 days, without mitogen) from hES cells and then neurospheres (for 7-10 days, 20 ng/㎖ of bFGF added N2 medium) from EB. And then for the differentiation into neuronal cells, neural progenitor cells were cultured in N2 medium (without bFGF) supplemented with brain derived neurotrophic factor (BDNF, 5 ng/㎖) or platelet derived growth factor-bb (pDGF-bb, 20ng/㎖) for 2 weeks. (omitted)

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In Vitro Expansion of Homogeneous Neural Precursor Cells Derived from Human Embryonic Stem Cells

  • Na, Deuk-Chae;Kim, Se-Hee;Choi, Won-Ik;Hwang, Hyun-Jin;Han, In-Bo;Kim, Jae-Hwan;Park, Keun-Hong;Chung, Hyung-Min;Choi, Seong-Jun
    • Reproductive and Developmental Biology
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    • 제31권4호
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    • pp.267-272
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    • 2007
  • Human embryonic stem (ES) cells are derived from the inner cell mass of the preimplantation embryo and have the capacity to differentiate into various types of cells in the body. Hence, these cells may potentially be an indefinite source of cells for cell therapy in various degenerative diseases including neuronal disorders. For clinical applications of human ES cells, directed differentiation of these cells would be necessary. The objective of this study is to develop the culture condition for the expansion of neural precursor cells derived from human ES cells. Human ES cells were able to differentiate into neural precursor cells upon a stepwise culture condition. Neural precursor cells were propagated up to 5000-fold in cell numbers over 12-week period of culture and evaluated for their characteristics. Expressions of sox1 and pax6 transcripts were dramatically up-regulated along the differentiation stages by RT-PCR analysis. In contrast, expressions of oct4 and nanog transcripts were completely disappeared in neural precursor cells. Expressions of nestin, pax6 and sox1 were also confirmed in neural precursor cells by immunocytochemical analysis. Upon differentiation, the expanded neural precursor cells differentiated into neurons, astrocytes, and oligodendrocytes. In immunocytochemical analysis, expressions of type III ${\beta}$-tubulin and MAP2ab were observed Presence of astrocytes and oligodendrocytes were also confirmed by expressions of GFAP and O4, respectively. Results of this study demonstrate the feasibility of long-term expansion of human ES cell-derived neural precursor cells in vitro, which can be a potential source of the cells for the treatment of neurodegenerative disorders.

Differential Expression of TPX2 upon Differentiation of Human Embryonic Stem Cells

  • Noh, Hye-Min;Choi, Seong-Jun;Kim, Se-Hee;Kim, Kye-Seong;Kim, Jin-Kyeoung
    • Reproductive and Developmental Biology
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    • 제31권4호
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    • pp.221-226
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    • 2007
  • Embryonic stem (ES) cells are known to have an infinite proliferation and pluripotency that are associated with complex processes. The objective of this study was to examine expression of genes differentially regulated during differentiation of human ES cells by suppression subtractive hybridization (SSH). Human ES cells were induced to differentiate into neural precursor cells via embryoid body. Neural precursor cells were isolated physically based on morphological criteria. Immunocytochemical analysis showed expression of pax6 in neural precursor cells, confirming that the isolated cells were neural precursor cells. Undifferentiated human ES cells and neural precursor cells were subject to the SSH. TPX2 (Targeting Protein for Xklp2 (Xenopus centrosomal kinesin-like protein 2)) was identified, cloned and analyzed during differentiation of human ES cells into neural lineages. Expression of TPX2 was gradually down-regulated in embryoid bodies and neural precursor cells relative to undifferentiated ES cells. Targeting Protein for Xklp2 has been shown to be involved in cell division by interaction with microtubule development in cancer cells. Taken together, result of this study suggests that TPX2 may be involved in proliferation and differentiation of human ES cells.

In Vitro Neural Cell Differentiation of Genetically Modified Human Embryonic Stem Cells Expressing Tyrosine Hydroxylase

  • Shin, Hyun-Ah;Lee, Keum-Sil;Cho, Hwang-Yun;Kim, Eun-Young;Lee, Won-Don;Park, Sepill;Lim, Jin-Ho
    • 한국동물번식학회:학술대회논문집
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    • 한국동물번식학회 2004년도 춘계학술발표대회
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    • pp.273-273
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    • 2004
  • This study was to examine in vitro neural cell differentiation pattern of the genetically modified human embryonic stem cells expressing tyrosine hydroxylase (TH). Human embryonic stem (hES, MB03) cell was transfected with cDNAs cording for TH. Successful transfection was confirmed by western immunoblotting. (omitted)

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Enhancement of Re-closure Capacity by the Intra-amniotic Injection of Human Embryonic Stem Cells in Surgically Induced Spinal Open Neural Tube Defects in Chick Embryos

  • Lee, Gun-Soup;Lee, Do-Hun;Kim, Eun-Young;Wang, Kyu-Chang;Lee, Won-Don;Park, Sepill;Lim, Jin-Ho
    • 한국동물번식학회:학술대회논문집
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    • 한국동물번식학회 2004년도 춘계학술발표대회
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    • pp.275-275
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    • 2004
  • To evaluate the potential of the stem cell therapy as a method for prenatal management of spinal open neural tube defect (ONTD), the influence of embryonic stem cells injected into the amniotic cavity on the re-closure capacity of spinal ONTD was investgated. Spinal neural tube was incised open for a length of 6 somites using chick embryos of Hamburger and Hamilton stage 18 or 19. (omitted)

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Human Embryonic Stem Cell Transplantation in Parkinson′s Disease (PD) Animal Model: II. In Vivo Transplantation in Normal or PD Rat Brain

  • Choe Gyeong-Hui;Ju Wan-Seok;Kim Yong-Sik;Kim Eun-Yeong;Park Se-Pil;Im Jin-Ho
    • 한국동물번식학회:학술대회논문집
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    • 한국동물번식학회 2002년도 춘계학술발표대회 발표논문초록집
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    • pp.19-19
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    • 2002
  • This study was to examine whether the in vitro differentiated neural cells derived from human embryonic stem (hES, MB03) cells can be survived and expressed tyrosin hydroxylase(TH) in grafted normal or PD rat brain. To differentiate in vitro into neural cells, embryoid bodies (EB: for 5 days, without mitogen) were formed from hES cells, neural progenitor cells(neurosphere, for 7-10 days, 20 ng/㎖ of bFGF added N2 medium) were produced from EB, and then finally neurospheres were differentiated into mature neuron cells in N2 medium(without bFGF) for 2 weeks. In normal rat brain, neural progenitor cells or mature neuron cells (1×10/sup 7/ cells/㎖) were grafted to the striatum of normal rats. After 2 weeks, when the survival of grafted hES cells was examined by immunohistochemical analysis, the neural progenitor cell group indicated higher BrdU, NeuN+, MAP2+ and GFAP+ than mature neuron cell group in grafted sites of normal rats. This result demonstrated that the in vivo differentiation of grafted hES cells be increased simultaneously in both of neuronal and glial cell type. Also, neural progenitor cell grafted normal rats expressed more TH pattern than mature neuron cells. Based on this data, as a preliminary test, when the neural progenitor cells were grafted into the striatum of 6-hydroxydopamine lesioned PD rats, we confirmed the cell survival (by double staining of Nissl and NeuN) and TH expression. This result suggested that in vitro differentiated neural progenitor cells derived from hES cells are more usable than mature neuron cells for the neural cell grafting in animal model and those grafted cells were survived and expressed TH in normal or PD rat brain.

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Derivation of Neural Precursor Cells from Human Embryonic Stem Cells

  • Kim Sehee;Hong Ji Young;Joo So Yeon;Kim Jae Hwan;Moon Shin Yong;Yoon Hyun Soo;Kim Doo Han;Chung Hyung Min;Choi Seong-Jun
    • Reproductive and Developmental Biology
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    • 제28권4호
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    • pp.247-252
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    • 2004
  • Human embryonic stem (ES) cells are derived from the inner cell mass of the preimplantation embryo. Human ES cells have the capacity to differentiate into various types of cells in the body. Human ES cells are indefinite source of cells for cell therapy in various degenerative disorders including neuronal disorders. Directed differentiation of human ES cells is a prerequisite for their clinical application. The objective of this study is to develop the culture condition for the derivation of neural precursor cells from human ES cells. Neural precursor cells were derived from human ES cells in a stepwise culture condition. Neural precursor cells in the form of neural rosette structures developed into neurospheres when cultured in suspension. Suspension culture of neurospheres has been maintained over 4 months. Expressions of nestin, soxl, sox2, pax3 and pax6 transcripts were upregulated during differentiation into neural precursor cells by RT-PCR analysis. In contrast, expression of oct4 was dramatically downregulated in neural precursor cells. Immunocytochemical analyses of neural precursor cells demonstrated expression of nestin and SOX1. When induced to differentiate on an adhesive substrate, neuro-spheres were able to differentiate into three lineages of neural systems, including neurons, astrocytes and oligo-dendrocytes. Transcripts of sox1 and pax6 were downregulated during differentiation of neural precursor cells into neurons. In contrast, expression of map2ab was elevated in the differentiated cells, relative to those in neural precursor cells. Neurons derived from neural precursor cells expressed NCAM, Tuj1, MAP2ab, NeuN and NF200 in immunocytochemical analyses. Presence of astrocytes was confirmed by expression of GFAP immuno-cytochemically. Oligodendrocytes were also observed by positive immuno-reactivities against oligodendrocyte marker O1. Results of this study demonstrate that a stepwise culture condition is developed for the derivation of neural precursor cells from human ES cells.