Young-S Lee

Publications (5)7.82 Total impact

• Article: Confirmation of germ-line transmission in the red fluorescence protein (RFP) transgenic cloned male cat.

  Su-Jin Cho, Young S Lee, Jae-Ik Lee, Jae-Il Bang, Jing Yang, Henry Klassen, Il-Keun Kong
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  ABSTRACT: The production of transgenic animals is highly desirable for biotechnology and basic research. We investigated the reproductive ability of a red fluorescence protein (RFP) transgenic cloned male cat (RFP TG cat) by natural mating with a domestic female cat. The RFP expression levels were examined in early embryogenesis, tissues from 45-day-old two fetuses, and four RFP TG cat offspring. The RFP gene was detected in tissue samples from one dead kitten, including several organs and the skin. Also, under a fluorescent light source, we were able to directly detect the RFP expression of in in vitro-produced blastocysts derived with sperm from the RFP TG cat. These results indicate that the RFP TG cat exhibits normal reproductive fertility, stable germ-line transmission of the RFP transgene, and characteristic RFP expression in its offspring. We isolated feline neural progenitor cells from a 45-day-old fetus derived from the natural mating of the RFP TG cat with a domestic female cat. Isolated brain and retinal progenitor cells were successfully passaged at least four times post isolation (day 23), and showed a high RFP expression level. This method of producing genetically modified cloned cats will be important for generating biomedical models of human diseases.
  Cellular reprogramming. 12/2010; 12(6):739-47.
• Source

  Available from: Il-Keun Kong

  Article: Intrastriatal grafts of mesenchymal stem cells in adult intact rats can elevate tyrosine hydroxylase expression and dopamine levels.

  Guang-Zhen Jin, Su-Jin Cho, Young-S Lee, Myeong-Ok Kim, Dong-Woo Cho, Il-Keun Kong
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  ABSTRACT: MSCs (mesenchymal stem cells) derived from the bone marrow have shown to be a promising source of stem cells in a therapeutic strategy of neurodegenerative disorder. Also, MSCs can enhance the TH (tyrosine hydroxylase) expression and DA (dopamine) content in catecholaminergic cells by in vitro co-culture system. In the present study, we investigated the effect of intrastriatal grafts of MSCs on TH protein and gene levels and DA content in adult intact rats. When MSCs were transplanted into the striatum of normal rats, the grafted striatum not only had significantly higher TH protein and mRNA levels, but also significantly higher DA content than the untransplanted striatum. Meanwhile, the grafted MSCs differentiated into neurons, astrocytes and oligodendrocytes; however, TH-positive cells could not be detected in our study. These experimental results offer further evidence that MSCs are a promising candidate for treating neurodegenerative diseases such as Parkinson's disease.
  Cell Biology International 09/2009; 34(1):135-40. · 1.48 Impact Factor
• Article: Rat mesenchymal stem cells increase tyrosine hydroxylase expression and dopamine content in ventral mesencephalic cells in vitro.

  Guang-Zhen Jin, Su-Jin Cho, Eu-Gene Choi, Young-S Lee, Xian-Feng Yu, Kap-Seong Choi, Sung-Tae Yee, Jin-Tae Jeon, Myeong-Ok Kim, Il-Keun Kong
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  ABSTRACT: Mesenchymal stem cells (MSCs) are pluripotent adult stem cells. It has been shown that MSCs secrete neurotrophic factors involving nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF). Also, these neurotrophic factors can upregulate tyrosine hydroxylase (TH) gene expression in PC12 cells and neural stem cells. Here, we investigated the effect of co-culturing rat E13.5 ventral mesencephalic cells (VMCs) with MSCs from rat bone marrow on TH expression and dopamine (DA) content. The study consisted of 3 groups: MSC, VMC and a combined MSC+VMC group. All groups were cultured in serum-free neuro-basal medium for 3 days. Thereafter, each group was analyzed by RT-PCR, western blotting, and HPLC. The co-culture group showed a higher expression at TH and DA than the VMC group. However, TH and DA were not present in the MSC group. These observations suggest that MSCs could be an alternative source for treating neurodegenerative diseases such as Parkinson's disease (PD).
  Cell Biology International 09/2008; 32(11):1433-8. · 1.48 Impact Factor
• Article: Generation of neuronal-like cells from umbilical cord blood-derived mesenchymal stem cells of a RFP-transgenic cloned cat.

  Guang-Zhen Jin, Xi-Jun Yin, Xian-Feng Yu, Su-Jin Cho, Eu-Gene Choi, Young-S Lee, Jin-Tae Jeon, Sung-Tae Yee, Il-Keun Kong
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  ABSTRACT: Umbilical cord blood (UCB)-derived mesenchymal stem cells (MSCs) are multipotent adult stem cells, which can differentiation into cells of connective tissue and neural lineages. This study investigated the potential for neuronal differentiation of red fluorescent protein (RFP)-transgenic cat UCB-derived MSCs. The cells were cultured in pre-induction medium for 24 hr and in neuronal-induction medium for 72 hr. Immunofluorescent staining showed that 6.85% of the total cells were beta III-tubulin-positive, 3.37% were neurofilament light (NF-L)-positive and 7.04% were neurofilament medium (NF-M)-positive. A beta III-tubulin band was detected by western blot analysis. Our results demonstrate that RFP-transgenic UCB-derived MSCs can be differentiated into neuronal cells in vitro. Thus, RFP-transgenic MSCs could provide alternative tracing material for stem cell transplantation.
  Journal of Veterinary Medical Science 08/2008; 70(7):723-6. · 0.85 Impact Factor
• Article: Generation of cloned transgenic cats expressing red fluorescence protein.

  Xi Jun Yin, Hyo Sang Lee, Xian Feng Yu, Eugene Choi, Bon Chul Koo, Mo Sun Kwon, Young S Lee, Su Jin Cho, Guang Zhen Jin, Lyoung Hyo Kim, Hyoung Doo Shin, Teoan Kim, Nam Hyung Kim, Il Keun Kong
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  ABSTRACT: A method for engineering and producing genetically modified cats is important for generating biomedical models of human diseases. Here we describe the use of somatic cell nuclear transfer to produce cloned transgenic cats that systemically express red fluorescent protein. Immature oocytes were collected from superovulating cat ovaries. Donor fibroblasts were obtained from an ear skin biopsy of a white male Turkish Angora cat, cultured for one to two passages, and subjected to transduction with a retrovirus vector designed to transfer and express the red fluorescent protein (RFP) gene. A total of 176 RFP cloned embryos were transferred into 11 surrogate mothers (mean = 16 +/- 7.5 per recipient). Three surrogate mothers were successfully impregnated (27.3%) and delivered two liveborn and one stillborn kitten at 65 to 66 days of gestation. Analysis of nine feline-specific microsatellite loci confirmed that the cloned cats were genetically identical to the donor cat. Presence of the RFP gene in the transgenic cat genome was confirmed by PCR and Southern blot analyses. Whole-body red fluorescence was detected 60 days after birth in the liveborn transgenic (TG) cat but not in the surrogate mother cat. Red fluorescence was detected in tissue samples, including hair, muscle, brain, heart, liver, kidney, spleen, bronchus, lung, stomach, intestine, tongue, and even excrement of the stillborn TG cat. These results suggest that this nuclear transfer procedure using genetically modified somatic cells could be useful for the efficient production of transgenic cats.
  Biology of Reproduction 04/2008; 78(3):425-31. · 4.01 Impact Factor