期刊
JOURNAL OF CELLULAR PHYSIOLOGY
卷 227, 期 11, 页码 3678-3692出版社
WILEY-BLACKWELL
DOI: 10.1002/jcp.24076
关键词
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资金
- Ministry of Education, Science and Technology, Republic of Korea [SC-4220]
- Korean Society of Cardiology
- Industry-Academy Collaboration Grant
- Stem Cell Research Center of the 21st Century Frontier Research Program [SC-4220]
- Industry-Academy Collaboration Grant from the Korean Society of Cardiology
To identify potential downstream targets of Nanog, a key transcription factor in the maintenance of pluripotency of embryonic stem (ES) and embryonal carcinoma (EC) cells, global gene expression profiles in Nanog small interfering RNA (siRNA)-transfected P19 EC stem cells were performed using cDNA, 60-mer, and 30-mer microarray platforms. The putative Nanog target genes identified by Nanog silencing were verified using reverse transcription-polymerase chain reaction after Nanog overexpression. Downregulation of Nanog in P19 cells resulted in reduction of pluripotency markers, such as Fgf4, Klf2, Mtf2, Oct-4, Rex1, Sox1, Yes, and Zfp143, whereas overexpression of Nanog in P19 cells reversely upregulated their expression. However, expressions of pluripotency markers Cripto, germ cell nuclear factor, Sox2, and Zfp57 as well as leukemia inhibitory factor (LIF)/Stat3 pathway molecules LIF, IL6st, and Stat3 were not affected after 48?h transfection with Nanog siRNA or construct. Nanog silencing also downregulated expression of molecules involved in the p53- and cell cycle-signaling pathway (Atf3, Jdp2, Cul3, Hist1hic, and Bcl6), whereas expression of E2f1, Tob1, Lyn, and Smarcc1 was upregulated by Nanog silencing. Expressions of cyclins D1, D2, D3, and E1 as well as cyclin-dependent kinase (Cdk) 1 and Cdk6 were downregulated by Nanog silencing in P19 cells, whereas Nanog overexpression reversely increased their expressions. Taken together, examination of global transcriptional changes after Nanog silencing followed by verification by Nanog overexpression has revealed new molecules involved in the maintenance of self-renewal and in the regulation of the p53- and cell cycle-pathway of P19 cells. J. Cell. Physiol. 227: 36783692, 2012. (C) 2012 Wiley Periodicals, Inc.
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