Heung Mo Yang scite author profile

Oct4 encodes a transcription factor that is involved in the maintenance of self-renewal in stem cells. Recently, the molecular mechanisms that regulate Oct4 expression have come under investigation. In this study, we demonstrate that the orphan nuclear receptor steroidogenic factor-1 (SF-1) behaves as a transcriptional activator of human Oct4 (hOct4) through direct interaction with a SF-1 binding element in the hOct4 proximal promoter. We found that Oct4 and SF-1 were co-expressed in undifferentiated human embryonal carcinoma NCCIT cells and downregulated during retinoic acid-mediated differentiation. We examined the functional role played by SF-1 in regulation of hOct4 transcription using a luciferase reporter assay and Western blot analysis. Overexpression of SF-1 increased up to about threefold hOct4 promoter activity and endogenous hOct4 protein expression. Sequence analysis of the hOct4 promoter revealed that the transcriptional activity was closely linked to Conserved Regions 1 (CR1) and 2 (CR2), which contain three putative SF-1-binding sites (1st, 2nd, and 3rd SF-1). Binding assays and mutagenesis of binding sites indicated that the 1st and 2nd SF-1 elements (in CR1 and CR2, respectively) might be important cis-regulatory elements in hOct4 promoter activity. However, differences in response to SF-1 overexpression between wild-type and mutant hOct4 promoters revealed that the 1st SF-1 element is the key binding site for SF-1-mediated transcriptional activation. Thus, our data indicate that SF-1 plays a crucial role in the regulation of hOct4 transcription through direct binding to the 1st SF-1 in CR1 of the hOct4 proximal promoter.

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Three-Dimensional Bioprinting of Hepatic Structures with Directly Converted Hepatocyte-Like Cells

Kang

Kim

Jeon

et al. 2018

Tissue Engineering Part A

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Three-dimensional (3D) bioprinting technology is a promising new technology in the field of bioartificial organ generation with regard to overcoming the limitations of organ supply. The cell source for bioprinting is very important. Here, we generated 3D hepatic scaffold with mouse-induced hepatocyte-like cells (miHeps), and investigated whether their function was improved after transplantation in vivo. To generate miHeps, mouse embryonic fibroblasts (MEFs) were transformed with pMX retroviruses individually expressing hepatic transcription factors Hnf4a and Foxa3. After 8-10 days, MEFs formed rapidly growing hepatocyte-like colonies. For 3D bioprinting, miHeps were mixed with a 3% alginate hydrogel and extruded by nozzle pressure. After 7 days, they were transplanted into the omentum of Jo2-treated NOD Scid gamma (NSG) mice as a liver damage model. Real-time polymerase chain reaction and immunofluorescence analyses were conducted to evaluate hepatic function. The 3D bioprinted hepatic scaffold (25 × 25 mm) expressed Albumin, and ASGR1 and HNF4a expression gradually increased for 28 days in vitro. When transplanted in vivo, the cells in the hepatic scaffold grew more and exhibited higher Albumin expression than in vitro scaffold. Therefore, combining 3D bioprinting with direct conversion technology appears to be an effective option for liver therapy.

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Characterization of putative cis‐regulatory elements that control the transcriptional activity of the human Oct4 promoter

Yang

Jin

et al. 2005

J of Cellular Biochemistry

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Octamer-binding transcription factor-4 (Oct4), a member of the POU domain transcription factors, is crucial for both early embryonic development and the maintenance of stem cell pluripotency. The human Oct4 (hOct4) 5' upstream sequence contains four conserved regions (CR1, 2, 3, 4) that are homologous in the murine. In this study, we constructed a series of deletion mutants of the hOct4 5' upstream region and identified cis-regulatory elements that may be important determinants for the transcriptional activity of the hOct4 promoter. Our studies showed that CR2, 3, and 4 each acted as positive cis-regulatory elements in hOct4 promoter activity. We also newly identified a putative negative cis-acting element located between CR1 and CR2. In addition, the sequence -380/-1 at CR1 that contains a GC box was sufficient to provide the minimal promoter activity. Site-directed mutagenesis and electrophoretic mobility shift assays revealed the GC box located in the -380/-1 region may play a critical role in controlling the transcriptional activity of hOct4 by the direct binding of Sp1 or Sp3 transcription factors to the GC box. An overexpression study showed that Sp1 and Sp3 positively and negatively regulate hOct4 promoter activity. Thus, the hOct4 promoter upstream region contains multiple regulatory elements, one of which, the GC box, may be an important cis-regulatory element that regulates the transcription of the hOct4 promoter by the binding of Sp family transcription factors.

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Modeling the interaction between aids and tuberculosis

Massad

Burattini

Coutinho

et al. 1993

Mathematical and Computer Modelling

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Heung Mo Yang

Transcriptional regulation of human Oct4 by steroidogenic factor‐1

Three-Dimensional Bioprinting of Hepatic Structures with Directly Converted Hepatocyte-Like Cells

Characterization of putative cis‐regulatory elements that control the transcriptional activity of the human Oct4 promoter

Modeling the interaction between aids and tuberculosis

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