Metastasis is the primary cause of death in patients with breast cancer. Overexpression of c-myc in humans correlates with metastases, but transgenic mice only show low rates of micrometastases. We have generated transgenic mice that overexpress both c-myc and vascular endothelial growth factor (VEGF) (Myc/VEGF) in the mammary gland, which develop high rates of pulmonary macrometastases. Gene expression profiling revealed a set of deregulated genes in Myc/VEGF tumors compared to Myc tumors associated with the increased metastatic phenotype. Cross-comparisons between this set of genes with a human breast cancer lung metastasis gene signature identified five common targets: tenascin-C (TNC), matrix metalloprotease-2, collagen-6-A1, mannosidase-a-1A and HLA-DPA1. Signaling blockade or knockdown of TNC in MDA-MB-435 cells resulted in a significant impairment of cell migration and anchorage-independent cell proliferation. Mice injected with clonal MDA-MB-435 cells with reduced expression of TNC demonstrated a significant decrease (Po0.05) in (1) primary tumor growth; (2) tumor relapse after surgical removal of the primary tumor and (3) incidence of lung metastasis. Our results demonstrate that VEGF induces complex alterations in tissue architecture and gene expression. The TNC signaling pathway plays an important role in mammary tumor growth and metastases, suggesting that TNC may be a relevant target for therapy against metastatic breast cancer.
Protein phosphorylation plays an indispensable role in cellular regulation of mitosis, metabolism, differentiation, and death. We previously reported that the protein phosphatase inhibitor okadaic acid (OKA) induces apoptosis in renal epithelial cells in culture. In the present study, we examined the role of phosphotidylinositol 3 (PI3) kinase signaling in okadaic acid-induced apoptosis by pre-treating normal rat kidney renal epithelial cells expressing human bcl-2 with the PI3 kinase inhibitors, LY294002 and wortmannin, followed by apoptosis-inducing concentrations of okadaic acid. Given the reported cell survival activity of PI3 kinase signaling mostly attributed to Akt kinase activation, we hypothesized that inhibition of PI3 kinase would enhance okadaic-induced apoptosis. Surprisingly, our data show that pretreatment with LY294002, but not wortmannin, attenuated okadaic acid-induced apoptosis. In contrast, to LY294002, wortmannin enhanced apoptosis. Interestingly, we also found that LY294002 treatment increased bcl-2 protein levels in normal rat kidney epithelial cells expressing bcl-2 (NRK-bcl-2). In untreated cells, bcl-2 appeared to be mainly perinuclear, coincident with the nuclear membrane, or in the cytosol. In OKA treated cells that were pre-treated with Ly294002, bcl-2 was highly co-localized with mitochondria, but in cells treated with okadaic acid alone, bcl-2 was associated with fragmented chromatin. In this model, it appears that LY294002 may exert anti-apoptotic effects by a previously unreported treatment related increase in bcl-2. Although it is widely accepted that bcl-2 protein can inhibit apoptosis, we propose that the subcellular location of bcl-2 is an important determinant in whether bcl-2 effectively inhibits apoptosis.
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