Mi-Hee Han scite author profile

et al. 2014

FEBS Letters

Edited by Ned ManteiKeywords: ETS family transcription factor Polyomavirus enhancer activator 3 OCT4 promoter Embryonic carcinoma NCCIT a b s t r a c tWe examined the molecular mechanism of OCT4 gene regulation by polyomavirus enhancer activator 3 (PEA3) in NCCIT cells. Endogenous PEA3 and OCT4 were significantly elevated in undifferentiated cells and reduced upon differentiation. PEA3 knockdown led to a reduction in OCT4 levels. OCT4 promoter activity was significantly up-regulated by dose-dependent PEA3 overexpression. Deletion and site-directed mutagenesis of the OCT4 promoter revealed a putative binding site within the conserved region 2 (CR2). PEA3 interacted with the binding element within CR2 in NCCIT cells. This study reveals the molecular details of the mechanism by which the oncogenic factor PEA3 regulates OCT4 gene expression as a transcriptional activator.

Differential Expression of ETS Family Transcription Factors in NCCIT Human Embryonic Carcinoma Cells upon Retinoic Acid-Induced Differentiation

Biological & Pharmaceutical Bulletin

et al. 2014

E26 transformation-specific (ETS) transcription factors play important roles in normal and tumorigenic processes during development, differentiation, homeostasis, proliferation, and apoptosis. To identify critical ETS factor(s) in germ cell-derived cancer cells, we examined the expression patterns of the 27 ETS transcription factors in naive and differentiated NCCIT human embryonic carcinoma cells, which exhibit both pluripotent and tumorigenic characteristics. Overall, expression of ETS factors was relatively low in NCCIT cells. Among the 27 ETS factors, polyomavirus enhancer activator 3 (PEA3) and epithelium-specific ETS transcription factor-1 (ESE-1) exhibited the most significant changes in their expression levels. Western blot analysis confirmed these patterns, revealing reduced levels of PEA3 protein and elevated levels of ESE-1 protein in differentiated cells. PEA3 increased the proportion of cells in S-phase and promoted cell growth, whereas ESE-1 reduced proliferation potential. These data suggest that PEA3 and ESE-1 may play important roles in pluripotent and tumorigenic embryonic carcinoma cells. These findings contribute to our understanding of the functions of oncogenic ETS factors in germ cell-derived stem cells during processes related to tumorigenesis and pluripotency.

Transcriptional regulation of OCT4 by the ETS transcription factor ESE-1 in NCCIT human embryonic carcinoma cells

Biochemical and Biophysical Research Communications

et al. 2014

The expression of the embryonic gene Cripto‐1 is regulated by OCT4 in human embryonal carcinoma NCCIT cells

Han

et al. 2017

FEBS Letters

Edited by Ned ManteiCripto-1 and OCT4, expressed in stem cells and cancers, play important roles in tumorigenesis. Here, we demonstrate that Cripto-1 expression is regulated by OCT4 in human embryonic carcinoma NCCIT cells. The endogenous expression of Cripto-1 and OCT4 is significantly reduced during differentiation. Cripto-1 expression is increased by OCT4 overexpression, but decreased by shRNA-mediated OCT4 knockdown. OCT4 overexpression significantly activates Cripto-1 transcriptional activity. A 5 0 -upstream minimal promoter sequence in the gene-encoding Cripto-1 is significantly activated by OCT4 overexpression. Mutation of the putative OCT4-binding site abolishes OCT4-mediated activation of the Cripto-1 promoter. The OCT4 transactivation domains mediate transcriptional activity of the Cripto-1 minimal promoter through direct interaction. Taken together, OCT4 plays an important role as a transcriptional activator of Cripto-1 expression in NCCIT cells.

Growth and Differentiation Factor 3 Is Transcriptionally Regulated by OCT4 in Human Embryonic Carcinoma Cells

Han

Biological & Pharmaceutical Bulletin

et al. 2016

Growth and differentiation factor 3 (GDF3), a mammalian-specific transforming growth factor β ligand, and OCT4, one of key stem cell transcription factors, are expressed in testicular germ cell tumors (TGCTs) as well as pluripotent stem cells. To understand the molecular mechanism by which OCT4 and GDF3 function in tumorigenesis as well as stemness, we investigated the transcriptional regulation of GDF3 mediated by OCT4 in human embryonic carcinoma (EC) NCCIT cells, which are pluripotent stem cells of TGCTs. GDF3 and OCT4 was highly expressed in undifferentiated NCCIT cells and then significantly decreased upon retinoic acid-induced differentiation in a time-dependent manner. Moreover, GDF3 expression was reduced by short hairpin RNA-mediated knockdown of OCT4 and increased by OCT4 overexpression, suggesting that GDF3 and OCT4 have a functional relationship in pluripotent stem cells. A promoter-reporter assay revealed that the GDF3 promoter ( 1721-Luc) activity was significantly activated by OCT4 in a dose-dependent manner. Moreover, the minimal promoter ( 183-Luc) was sufficient for OCT4-mediated transcriptional activation and provided a potential binding site for the direct interaction with OCT4. Collectively, this study provides the evidence about the regulatory mechanism of GDF3 mediated by OCT4 in pluripotent EC cells.