Olig2-Induced Neural Stem Cell Differentiation Involves Downregulation of Wnt Signaling and Induction of Dickkopf-1 Expression

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Abstract

Understanding stem cell-differentiation at the molecular level is important for clinical applications of stem cells and for finding new therapeutic approaches in the context of cancer stem cells. To investigate genome-wide changes involved in differentiation, we have used immortalized neural stem cell (NSC) line (HB1.F3) and Olig2-induced NSC differentiation model (F3.Olig2). Using microarray analysis, we revealed that Olig2-induced NSC differentiation involves downregulation of Wnt pathway, which was further confirmed by TOPflash/FOPflash reporter assay, RT-PCR analysis, immunoblots, and immunocytochemistry. Furthermore, we found that Olig2-induced differentiation induces the expression of Dickkopf-1(Dkk1), a potent antagonist of Wnt signaling. Dkk1 treatment blocked Wnt signaling in HB1.F3 in a dosage-dependent manner, and induced differentiation into astrocytes, oligodendrocytes, and neurons. Our results support cancer stem cell hypothesis which implies that signaling pathway for self-renewal and proliferation of stem cells is maintained till the late stage of differentiation. In our proposed model, Dkk1 may play an important role in downregulating self-renewal and proliferation pathway of stem cells at the late stage of differentiation, and its failure may lead to carcinogenesis.

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Most cited references 41

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The adenomatous polyposis coli gene (APC) is a tumor suppressor gene that is inactivated in most colorectal cancers. Mutations of APC cause aberrant accumulation of beta-catenin, which then binds T cell factor-4 (Tcf-4), causing increased transcriptional activation of unknown genes. Here, the c-MYC oncogene is identified as a target gene in this signaling pathway. Expression of c-MYC was shown to be repressed by wild-type APC and activated by beta-catenin, and these effects were mediated through Tcf-4 binding sites in the c-MYC promoter. These results provide a molecular framework for understanding the previously enigmatic overexpression of c-MYC in colorectal cancers.

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Generation of neurons and astrocytes from isolated cells of the adult mammalian central nervous system.

Kyle B. Reynolds, Thomas S. Weiss (1992)

Neurogenesis in the mammalian central nervous system is believed to end in the period just after birth; in the mouse striatum no new neurons are produced after the first few days after birth. In this study, cells isolated from the striatum of the adult mouse brain were induced to proliferate in vitro by epidermal growth factor. The proliferating cells initially expressed nestin, an intermediate filament found in neuroepithelial stem cells, and subsequently developed the morphology and antigenic properties of neurons and astrocytes. Newly generated cells with neuronal morphology were immunoreactive for gamma-aminobutyric acid and substance P, two neurotransmitters of the adult striatum in vivo. Thus, cells of the adult mouse striatum have the capacity to divide and differentiate into neurons and astrocytes.

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CNS stem cells express a new class of intermediate filament protein.

Urban Lendahl, Lyle Zimmerman, Ronald D.G. McKay (1990)

Multipotential CNS stem cells receive and implement instructions governing differentiation to diverse neuronal and glial fates. Exploration of the mechanisms generating the many cell types of the brain depends crucially on markers identifying the stem cell state. We describe a gene whose expression distinguishes the stem cells from the more differentiated cells in the neural tube. This gene was named nestin because it is specifically expressed in neuroepithelial stem cells. The predicted amino acid sequence of the nestin gene product shows that nestin defines a distinct sixth class of intermediate filament protein. These observations extend a model in which transitions in intermediate filament gene expression reflect major steps in the pathway of neural differentiation.

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Author and article information

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: Role: Editor

Journal

Journal ID (nlm-ta): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, USA )

ISSN (Electronic): 1932-6203

Publication date Collection: 2008

Publication date (Electronic): 18 December 2008

Volume: 3

Issue: 12

Electronic Location Identifier: e3917

Affiliations

[1 ]Center for Genomics and Proteomics, Lee Gil Ya Cancer and Diabetes Institute, Gachon University of Medicine and Science, Incheon, Korea

[2 ]Mass Spectrometry Analysis Group, Korea Basic Science Institute, Daejeon, Korea

[3 ]Gachon Institute for Regenerative Medicine, Gachon University of Medicine and Science, Incheon, Korea

[4 ]Department of Medicine, University of British Columbia, Vancouver, Canada

[5 ]Department of Life Science, The University of Seoul, Dongdaemun-gu, Seoul, Korea

[6 ]Joint Proteomics Laboratory, Ludwig Institute for Cancer Research & the Walter and Eliza Hall Institute of Medical Research, Melbourne, Australia

University of Washington, United States of America

Author notes

* E-mail: sukim2005@ 123456gmail.com (SUK); Richard.simpson@ 123456ludwig.edu.au (RJS); bhlee@ 123456gachon.ac.kr (BL)

Conceived and designed the experiments: EhJ RJS BL. Performed the experiments: KB EhJ. Analyzed the data: SMA DK KL JSY. Contributed reagents/materials/analysis tools: JSY SUK. Wrote the paper: SMA KB RJS BL.

Article

Publisher ID: 08-PONE-RA-06109R1

DOI: 10.1371/journal.pone.0003917

PMC ID: 2602983

PubMed ID: 19093005

SO-VID: ca6c27c7-d2de-4930-816e-53b031c37acb

Copyright © Ahn et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

History

Date received : 26 August 2008

Date accepted : 7 November 2008

Page count

Pages: 9

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Olig2-Induced Neural Stem Cell Differentiation Involves Downregulation of Wnt Signaling and Induction of Dickkopf-1 Expression

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Most cited references 41

Identification of c-MYC as a target of the APC pathway.

Generation of neurons and astrocytes from isolated cells of the adult mammalian central nervous system.

CNS stem cells express a new class of intermediate filament protein.

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