TCF/β-catenin plays an important role in HCCR-1 oncogene expression

Abstract

<p>Abstract</p> <p>Background</p> <p>Oncogene <it>HCCR-1 </it>functions as a negative regulator of the p53 and contributes to tumorigenesis of various human tissues. However, it is unknown how <it>HCCR-1 </it>contributes to the cellular and biochemical mechanisms of human tumorigenesis.</p> <p>Results</p> <p>In this study, we showed how the expression of <it>HCCR-1 </it>is modulated. The luciferase activity assay indicated that the <it>HCCR-1 </it>5'-flanking region at positions -166 to +30 plays an important role in <it>HCCR-1 </it>promoter activity. Computational analysis of this region identified two consensus sequences for the T-cell factor (TCF) located at -26 to -4 (Tcf1) and -136 to -114 (Tcf2). Mutation at the Tcf1 site led to a dramatic decrease in promoter activity. Mobility shift assays (EMSA) revealed that nuclear proteins bind to the Tcf1 site, but not to the Tcf2 site. LiCl, Wnt signal activator by GSK-3β inhibition, significantly increased reporter activities in wild-type Tcf1-containing constructs, but were without effect in mutant Tcf1-containing constructs in HEK/293 cells. In addition, endogenous <it>HCCR-1 </it>expression was also increased by treatment with GSK-3β inhibitor, LiCl or AR-A014418 in HEK/293 and K562 cells. Finally, we also observed that the transcription factor, TCF, and its cofactor, β-catenin, bound to the Tcf1 site.</p> <p>Conclusion</p> <p>These findings suggest that the Tcf1 site on the <it>HCCR-1 </it>promoter is a major element regulating <it>HCCR-1 </it>expression and abnormal stimulation of this site may induce various human cancers.</p