Murine Nr4a1 and Herpud1 are up-regulated by Wnt-1, but the homologous human genes are independent from beta-catenin activation.

The Wnt signal transduction pathway regulates morphogenesis and mitogenesis of cells in multicellular organisms. A major downstream consequence of Wnt-1 signalling is the activation of beta-catenin/T-cell factor (TCF)-mediated transcription. We compared Wnt-1-transformed murine mammary epithelial cells with control cells by subtractive hybridization. We found the two genes Nr4a1 and Herpud1 to be overexpressed in Wnt-1-transformed cells. Remarkably, the transcription levels of the two homologous human genes NR4A1 and HERPUD1 are neither activated in cells with activated beta-catenin/TCF-mediated transcription nor can be induced by beta-catenin transfection. These results indicate different regulation mechanisms of the two genes in murine and human cells.

The new sulindac derivative IND 12 reverses Ras-induced cell transformation.

The nonsteroidal anti-inflammatory drug Sulindac has chemopreventive and antitumorigenic properties. Its metabolites induce apoptosis and inhibit signaling pathways critical for malignant transformation, including the Ras pathway. Here we show that the new Sulindac derivative IND 12 reverses the phenotype of Ras-transformed MDCK-f3 cells and restores an untransformed epithelioid morphology characterized by growth in monolayers with regular cell-cell adhesions. Moreover, IND 12 treatment induces the expression at membranes of the cell adhesion protein E-cadherin and increases the level of the E-cadherin-bound beta-catenin. As a consequence, IND 12-treated MDCK-f3 cells lose their invasion capacity and regain the ability to aggregate. In the presence of IND 12, MDCK-f3 cells show regenerated expression and activity ratios of the small GTPases Rac and Rho normally found in untransformed MDCK cells. Strikingly, IND 12 treatment decreases the levels of phosphorylated mitogen-activated protein kinases, which are downstream substrates of the Ras-regulated Raf/mitogen-activated protein kinase pathway, and the level of Ras-induced activation of gene expression. Our findings identify a novel drug with high potential in cancer therapy by targeting Ras-induced cell transformation.