Your search keyword '"Ki-Hyuk Shin"' showing total 4 results

1. ΔNp63α protein triggers epithelial-mesenchymal transition and confers stem cell properties in normal human keratinocytes

Author

Ki-Hyuk Shin, Reuben H. Kim, No-Hee Park, Mo K. Kang, and Ju-Eun Oh

Subjects

Homeobox protein NANOG, Keratinocytes, Epithelial-Mesenchymal Transition, LIN28, Biochemistry, Cell Line, Transactivation, Transforming Growth Factor beta, Humans, Epithelial–mesenchymal transition, Molecular Biology, biology, integumentary system, Stem Cells, Tumor Suppressor Proteins, Mesenchymal stem cell, Mesenchymal Stem Cells, Transforming growth factor beta, Cell Biology, Cell biology, stomatognathic diseases, Phenotype, Retroviridae, Cell culture, embryonic structures, Immunology, biology.protein, Additions and Corrections, sense organs, Stem cell, Signal Transduction, Transcription Factors

Abstract

p63 is a p53 family protein required for morphogenesis and postnatal regeneration of epithelial tissues. Here we demonstrate that ΔNp63α, a p63 isoform lacking the N-terminal transactivation domain, induces epithelial-mesenchymal transition (EMT) in primary human keratinocytes in a TGF-β-dependent manner. Rapidly proliferating normal human epidermal keratinocytes (NHEK) were infected with retroviral vector expressing ΔNp63α or empty vector and serially subcultured until replicative senescence. No phenotypic changes were observed until the culture reached senescence. Then the ΔNp63α-transduced cells underwent morphological changes resembling mesenchymal cells and acquired the EMT phenotype. Treatment with exogenous TGF-β accelerated EMT in presenescent ΔNp63α-transduced cells, whereas the inhibition of TGF-β signaling reversed the EMT phenotype. TGF-β treatment alone led to growth arrest in control NHEK with no evidence of EMT, indicating that ΔNp63α altered the cellular response to TGF-β treatment. ΔNp63α-transduced cells acquiring EMT gained the ability to be differentiated to osteo-/odontogenic and adipogenic pathways, resembling mesenchymal stem cells. Furthermore, these cells expressed enhanced levels of Nanog and Lin28, which are transcription factors associated with pluripotency. These data indicate that EMT required ΔNp63α transduction and intact TGF-β signaling in NHEK.

Published

2012

2. ΔNp63α Protein Triggers Epithelial-Mesenchymal Transition and Confers Stem Cell Properties in Normal Human Keratinocytes.

Author

Ju-Eun Oh, Kim, Reuben H., Ki-Hyuk Shin, Park, No-Hee, and Kang, Mo K.

Subjects

*MICROBIAL genetics, *EPITHELIAL cells, *STEM cells, *KERATINOCYTES, *PRESERVATION of organs, tissues, etc., *GENOTYPE-environment interaction

Abstract

p63 is a p53 family protein required for morphogenesis and postnatal regeneration of epithelial tissues. Here we demonstrate that ΔNp63α, a p63 isoform lacking the N-terminal transactivation domain, induces epithelial-mesenchymal transition (EMT) in primary human keratinocytes in a TGF-β-dependent manner. Rapidly proliferating normal human epidermal keratinocytes (NHEK) were infected with retroviral vector expressing ΔNp63α or empty vector and serially subcultured until replicative senescence. No phenotypic changes were observed until the culture reached senescence. Then the ΔNp63α-transduced cells underwent morphological changes resembling mesenchymal cells and acquired the EMT phenotype. Treatment with exogenous TGF-β accelerated EMT in presenescent ΔNp63α-transduced cells, whereas the inhibition of TGF-β signaling reversed the EMT phenotype. TGF-β treatment alone led to growth arrest in control NHEK with no evidence of EMT, indicating that ΔNp63α altered the cellular response to TGF-β treatment. ΔNp63α-transduced cells acquiring EMT gained the ability to be differentiated to osteo-/odontogenic and adipogenic pathways, resembling mesenchymal stem cells. Furthermore, these cells expressed enhanced levels of Nanog and Lin28, which are transcription factors associated with pluripotency. These data indicate that EMT required ΔNp63α transduction and intact TGF-β signaling in NHEK. [ABSTRACT FROM AUTHOR]

Published

2011

3. Grainyhead-like 2 Enhances the Human Telomerase Reverse Transcriptase Gene Expression by Inhibiting DNA Methylation at the 5'-CpG Island in Normal Human Keratinocytes.

Author

Wei Chen, Qinghua Dong, Ki-Hyuk Shin, Reuben H. Kim, Ju-Eun Oh, No-Hee Park, and Kang, Mo K.

Subjects

*TRANSCRIPTION factors, *CELL proliferation, *WESTERN immunoblotting, *METHYLATION, *GENE expression

Abstract

We recently identified Grainyhead-like 2 (GRHL2) as a novel transcription factor that binds to and regulates the activity of the human telomerase reverse transcriptase (hTERT) gene promoter. In this study, we investigated the biological functions of GRHL2 and the molecular mechanism underlying hTERT gene regulation by GRHL2. Retroviral transduction of GRHL2 in normal human keratinocytes (NHK) led to a significant extension of replicative life span, whereas GRHL2 knockdown notably repressed telomerase activity and cell proliferation. Using promoter magnetic precipitation coupled with Western blotting, we confirmed the binding of GRHL2 to the hTERT promoter and mapped the minimal binding region at -53 to -13 of the promoter. Furthermore, mutation analysis revealed the three nucleotides from -21 to -19 to be critical for GRHL2 binding. Because hTERT expression is regulated in part by DNA methylation, we determined the effects of GRHL2 on the methylation status of the hTERT promoter. Senescent NHK exhibited hypermethylation of the CpG island, which occurred with the loss of hTERT expression. On the contrary, the promoter remained hypomethylated in GRHL2-transduced NHK, irrespective of cell proliferation status. Also, knockdown of endogenous GRHL2 led to hypermethylation of the promoter. These results indicate that GRHL2 regulates the hTERT expression through an epigenetic mechanism and controls the cellular life span. [ABSTRACT FROM AUTHOR]

Published

2010

4. The p63 Gene Is Regulated by Grainyhead-like 2 (GRHL2) through Reciprocal Feedback and Determines the Epithelial Phenotype in Human Keratinocytes.

Author

Mehrazarin, Shebli, Wei Chen, Ju-Eun Oh, Zi X. Liu, Kyung L. Kang, Jin K. Yi, Kim, Reuben H., Ki-Hyuk Shin, No-Hee Park, and Mo K. Kang

Subjects

*KERATINOCYTES, *FIBRONECTINS, *GENE transfection, *PROMOTERS (Genetics), *EPITHELIAL cells, *GENE expression

Abstract

In this study, we investigated the effects of p63 modulation in epithelial plasticity in human keratinocytes. The p63 isoforms ΔNp63α, ΔNp63β, and ΔNp63δ were ectopically expressed in normal human epidermal keratinocytes (NHEKs). The epithelial or mesenchymal state was determined by morphological changes and altered expression of various markers, e.g. fibronectin, E-Cadherin, and keratin 14. Overexpression of ΔNp63α and ΔNp63β but not ΔNp63δ isoforms led to morphological changes consistent with epithelial-mesenchymal transition (EMT). However, only ΔNp63α overexpression was able to maintain the morphological changes and molecular phenotype consistent with EMT. Interestingly, knockdown of all p63 isoforms by transfection of p63 siRNA also led to the EMT phenotype, further confirming the role of p63 in regulating the epithelial phenotype in NHEKs. EMT in NHKs accompanied loss of Grainyhead-Like 2 (GHRL2) and miR-200 family gene expression, both of which play crucial roles in determining the epithelial phenotype. Modulation of GRHL2 in NHKs also led to congruent changes in p63 expression. ChIP revealed direct GRHL2 binding to the p63 promoter. GRHL2 knockdown inNHKled to impaired binding of GRHL2 and changes in the histone marks consistent with p63 gene silencing. These data indicate the presence of a reciprocal feedback regulation between p63 and GRHL2 in NHEKs to regulate epithelial plasticity. [ABSTRACT FROM AUTHOR]

Published

2015