Transforming growth factor-B (TGF-B) is thought to play a role in the pathobiological progression of ovarian cancer because this peptide hormone is overexpressed in cancer tissue, plasma, and peritoneal fluid. In the current study, we investigated the role of the TGF-B/ Smad3 pathway in ovarian cancer metastasis by regulation of an epithelial-to-mesenchymal transition. When cancer cells were cultured on plastic, TGF-B1, TGF-B2, and TGF-B3 induced pro -matrix metalloproteinase (MMP) secretion, loss of cell-cell junctions, down-regulation of E-cadherin, up-regulation of N-cadherin, and acquisition of a fibroblastoid phenotype, consistent with an epithelial-tomesenchymal transition. Furthermore, Smad3 small interfering RNA transfection inhibited TGF-B -mediated changes to a fibroblastic morphology, but not MMP secretion. When cancer cells were cultured on a three-dimensional collagen matrix, TGF-B1, TGF-B2, and TGF-B3 stimulated both pro-MMP and active MMP secretion and invasion. Smad3 small interfering RNA transfection of cells cultured on a collagen matrix abrogated TGF-B -stimulated invasion and MMP secretion. Analysis of Smad3 nuclear expression in microarrays of serous benign tumors, borderline tumors, and cystadenocarcinoma revealed that Smad3 expression could be used to distinguish benign and borderline tumors from carcinoma (P = 0.006). Higher Smad3 expression also correlated with poor survival (P = 0.031). Furthermore, a direct relationship exists between Smad3 nuclear expression and expression of the mesenchymal marker N-cadherin in cancer patients (P = 0.0057). Collectively, these results implicate an important role for the TGF-B/Smad3 pathway in mediating ovarian oncogenesis by enhancing metastatic potential. (Mol Cancer Res 2008;6(5):695 -705)
Elevated activin A levels in serum, cyst fluid, and peritoneal fluid of ovarian cancer patients suggest a role for this peptide hormone in disease development. We hypothesize that activin A plays a role in ovarian tumor biology, and analyzed activin-mediated pro-oncogenic signaling in vitro and the expression of activin signaling pathway molecules in vivo. Activin A regulation of Akt and GSK, and the effects of repressing the activities of these molecules (with pharmacological inhibitors) on cellular proliferation were assessed in the cell line, OVCA429. Activin A activated Akt, which phosphorylated GSK, repressing GSK activity in vitro. Activin A stimulated cellular proliferation and repression of GSK augmented activin-regulated proliferation. To validate in vitro observations, immunostaining of the betaA-subunit of activin A and phospho-GSKalpha/beta (Ser9/21) was performed, and the correlation between immunoreactivity levels of these markers and survival was evaluated in benign serous cystadenoma, borderline tumor, and cystadenocarcinoma microarrays. Analysis of tissue microarrays revealed that betaA expression in epithelia did not correlate with survival or malignancy, but expression was elevated in stromal cells from carcinomas when compared with benign tumors. Phospho-GSKalpha/beta (Ser9/21) staining was more intense in mitotically active carcinoma cells and exhibited a polarized localization in benign neoplasms that was absent in carcinomas. Notably, lower phospho-GSKalpha/beta (Ser9/21) immunoreactivity correlated with better survival for carcinoma patients (P=0.046). Our data are consistent with a model in which activin A may mediate ovarian oncogenesis by activating Akt and repressing GSK to stimulate cellular proliferation.
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