The metastasis-associated gene S100A4 is a novel target of beta-catenin/T-cell factor signaling in colon cancer.

BACKGROUND & AIMS: Activation of the Wnt/beta-catenin pathway is frequently observed in colorectal cancers. Our aim was to elucidate the impact of gain-of-function beta-catenin on the metastasis-associated gene S100A4 in human colon cancer cell lines and tumors. METHODS: We analyzed cell lines heterozygous for gain-of-function and wild-type beta-catenin, and variants homozygous for gain- or loss-of-function mutation in beta-catenin, for S100A4 expression, cell motility, and in vivo metastasis. beta-catenin-mediated S100A4 promoter activation was tested by reporter assays. For human colon carcinomas, S100A4 expression, beta-catenin genotype, and metachronous metastasis were correlated. RESULTS: We identified S100A4 as the most regulated gene by gain-of-function beta-catenin using a 10K microarray. Cell lines with gain-of-function beta-catenin expressed up to 60-fold elevated S100A4 levels, displayed strongly increased migration and invasion in vitro, and induced metastasis in mice. S100A4 small interfering RNA, beta-catenin small interfering RNA, or dominant negative T-cell factor (TCF) knocked down S100A4 and blocked biological effects. S100A4 complementary DNA transfection increased migration and invasion. We identified a TCF binding site within the S100A4 promoter and demonstrated the direct binding of heterodimeric beta-catenin/TCF complexes. Reporter assays confirmed the beta-catenin-induced S100A4 promoter activity. Furthermore, S100A4 mRNA expression was increased in primary colon cancers, which later developed distant metastases, compared to non-metastasizing tumors. Colon tumors heterozygous for gain-of-function beta-catenin showed concomitant nuclear beta-catenin localization, high S100A4 expression, and metastases. CONCLUSIONS: S100A4 is a direct beta-catenin/TCF target, induces migration and invasion in vitro and metastasis in vivo, and has value for prognosis of metastasis formation in colon cancer patients.

Proof-of-principle: oncogenic beta-catenin is a valid molecular target for the development of pharmacological inhibitors.

Activation of beta-catenin is a critical step in the pathogenesis of many common human cancers and is the initiating event in adenocarcinoma of the colon. Because activation of beta-catenin provides a gain-of-function, it is tempting to speculate that specific pharmacological inhibition of activated beta-catenin might reverse the tumorigenic properties of human cancer cells and therefore form the basis of an effective anticancer strategy. In an effort to provide proof-of-principle for such a strategy, we used a novel clonal growth assay based on human somatic cell gene targeting to determine whether activated beta-catenin remains a necessary oncogenic stimulus in advanced human cancer cells. Using this approach, we demonstrate that beta-catenin is a necessary oncogene in human SW48 and DLD1 colon cancer cells but not in HCT116 cells. These data indicate that activated beta-catenin can remain a critical oncogenic stimulus throughout the progression of human colon cancer and suggest that the small molecule inhibitors of activated beta-catenin currently under development will be effective anticancer therapeutics in a subset of malignant colon cancers.