Abstract
Nanog and FAK were shown to be overexpressed in cancer cells. In this report, the Nanog overexpression increased FAK expression in 293, SW480, and SW620 cancer cells. Nanog binds the FAK promoter and up-regulates its activity, whereas Nanog siRNA decreases FAK promoter activity and FAK mRNA. The FAK promoter contains four Nanog-binding sites. The site-directed mutagenesis of these sites significantly decreased up-regulation of FAK promoter activity by Nanog. EMSA showed the specific binding of Nanog to each of the four sites, and binding was confirmed by ChIP assay. Nanog directly binds the FAK protein by pulldown and immunoprecipitation assays, and proteins co-localize by confocal microscopy. Nanog binds the N-terminal domain of FAK. In addition, FAK directly phosphorylates Nanog in a dose-dependent manner by in vitro kinase assay and in cancer cells in vivo. The site-directed mutagenesis of Nanog tyrosines, Y35F and Y174F, blocked phosphorylation and binding by FAK. Moreover, overexpression of wild type Nanog increased filopodia/lamellipodia formation, whereas mutant Y35F and Y174F Nanog did not. The wild type Nanog increased cell invasion that was inhibited by the FAK inhibitor and increased by FAK more significantly than with the mutants Y35F and Y174F Nanog. Down-regulation of Nanog with siRNA decreased cell growth reversed by FAK overexpression. Thus, these data demonstrate the regulation of the FAK promoter by Nanog, the direct binding of the proteins, the phosphorylation of Nanog by FAK, and the effect of FAK and Nanog cross-regulation on cancer cell morphology, invasion, and growth that plays a significant role in carcinogenesis.
Highlights
Nanog and focal adhesion kinase are overexpressed in cancer cells
We show that Nanog overexpression or induction of endogenous Nanog expression by HA induces FAK expression, down-regulation of Nanog with siRNA decreases FAK expression in cancer cells
Recent study with immunohistochemical analysis of 75 colon cancer tumors showed overexpression of Nanog in tumors compared with normal tissues, which correlated with poor prognosis, lymph node status, and tumor stage [10]
Summary
Nanog and focal adhesion kinase are overexpressed in cancer cells. Results: Nanog binds the FAK promoter, up-regulates FAK, and directly binds and is phosphorylated by FAK that regulates cell morphology, growth, and invasion. In this report we demonstrate the direct role of Nanog transcription factor in the regulation of FAK promoter activity and FAK expression in different cancer cells. This report demonstrates the direct interaction of FAK and the N-terminal domain of FAK and Nanog proteins by pulldown assays in vitro and by immunoprecipitation and confocal microscopy in vivo. It demonstrates direct phosphorylation of Nanog by FAK using in vitro kinase assays and in cancer cells using immunoprecipitation of Nanog with phospho-specific antibody, and it shows the functional significance of wild type Nanog and mutants Y35F and Y174F Nanog for phosphorylation and binding with FAK and for cancer cellular morphology and invasion. This study provides the mechanism of Nanog and FAK cross-regulation and interaction in different cancer cells, which is important for the fields of cancer cell biology, stem cell biology, and cancer research
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