Activation of the Snail transcription factor induces Mdm2 gene expression.

Epithelial-like tumor cells can become metastatic by undergoing molecular and phenotypic reprogramming in a process referred to as epithelial-to-mesenchymal transition (EMT). In response to EMT genes that promote migration and condition the tumor microenvironment to permit intravasation into the bloodstream, dissemination and extravasation into new organs are induced. While the mutant p53 has been implicated in extravasation, one negative regulator of p53, the oncogene murine double minute-2 gene (Mdm2), is required in the early stages of metastasis and the driver of EMT. This activity is independent of Mdm2's role in the p53-Mdm2 autoregulatory feedback loop. Herein, we examine the EMT transcription factor Snail as a downstream effector of kinase signaling pathways. We show that the activation of upstream receptors and KRas signaling increase Snail levels. Snail binds to Ebox DNA motifs, and Mdm2 has two Ebox DNA-binding domains in the second promoter. Snail binds to the second Ebox and induces Mdm2 gene expression. Knockdown of endogenous Snail by shRNA shows a decrease in Mdm2 and is associated with reduced migration. The reintroduction of Mdm2 in shSnail cells restores cellular migration. These data integrate upstream pathways that induce Snail-Mdm2 to promote the metastasis of tumor cells.