Changes in protein expression in two cholangiocarcinoma cell lines undergoing formation of multicellular tumor spheroids in vitro.

Epithelial-to-Mesenchymal Transition (EMT) is relevant in malignant growth and frequently correlates with worsening disease progression due to its implications in metastases and resistance to therapeutic interventions. Although EMT is known to occur in several types of solid tumors, the information concerning tumors arising from the epithelia of the bile tract is still limited. In order to approach the problem of EMT in cholangiocarcinoma, we decided to investigate the changes in protein expression occurring in two cell lines under conditions leading to growth as adherent monolayers or to formation of multicellular tumor spheroids (MCTS), which are considered culture models that better mimic the growth characteristics of in-vivo solid tumors. In our system, changes in phenotypes occur with only a decrease in transmembrane E-cadherin and vimentin expression, minor changes in the transglutaminase protein/activity but with significant differences in the proteome profiles, with declining and increasing expression in 6 and in 16 proteins identified by mass spectrometry. The arising protein patterns were analyzed based on canonical pathways and network analysis. These results suggest that significant metabolic rearrangements occur during the conversion of cholangiocarcinomas cells to the MCTS phenotype, which most likely affect the carbohydrate metabolism, protein folding, cytoskeletal activity, and tissue sensitivity to oxygen.

Comparative proteomic analysis of ductal breast carcinoma demonstrates an altered expression of chaperonins and cytoskeletal proteins.

The aim of the present study was to analyze the protein composition of ductal breast carcinoma and the surrounding normal tissue in individual patients using comparative 2D proteomics and mass spectrometry to detect candidate disease biomarkers for diagnosis and prognosis. Samples of normal and cancerous tissue obtained form 28 patients were analyzed. Chaperonins and cytoskeletal proteins predominated among the 11 proteins for which major changes in abundance were detected. Of these 11 proteins with an altered expression, 2 had a decreased expression and 9 had an increased expression. In addition, the abundance of a few cytokeratins was also altered; however, they were not capable of serving as specific circulatory biomarkers. The proteins which we observed to exhibit an altered expression in infiltrating ductal breast carcinoma may be exploited as novel targets for therapeutic interventions or represent novel diagnostic/prognostic markers for the early detection of aggressive tumors, particularly those with multridrug-resistant phenotypes during the earlier stages of the disease.

Antiangiogenic drugs for chemotherapy of bladder tumours.

BACKGROUND: Bladder cancers have different angiogenic pathways distinguishing not only papillary from solid tumours, but even papillary superficial from papillary invasive ones, thus representing selective targets for antiangiogenic drugs. METHODS: The bacterial wall component tecogalan, inhibiting basic fibroblast growth factor (bFGF), the fumagillin derivative TNP-470, inhibiting vascular endothelial growth factor (VEGF), the distamycin A derivative PNU153429, and the tetracycline minocycline were administered to nude mice injected with the human bladder cancer cell lines 639V, causing bFGF-expressing papillary superficial tumours, or T24, causing VEGF-expressing papillary invasive tumours. RESULTS: Tecogalan had no effect even on 639V tumour growth, where bFGF was unaffected. TNP-470 only had an effect on T24 tumours, delaying tumour appearance and growth and lowering VEGF; these effects were augmented by adding minocycline. PNU153429 had no effect on 639V tumours, and a slight effect on T24 tumours. CONCLUSION: TNP-470 may represent a selective drug for the treatment of VEGF-expressing invasive papillary bladder tumours.

Tumor and metastasis suppression by the human RNASET2 gene.

The region 6q27 from human chromosome 6 has been reported to contain one or more tumor suppressor genes on the basis of cytogenetic, molecular and functional studies. We have recently carried out a detailed analysis of a candidate gene from 6q27 to evaluate its putative role as a tumor suppressor gene involved in ovarian cancer pathogenesis. The RNASET2 gene was shown to behave as a class II tumor suppressor and abolish the tumorigenic potential of an ovarian cancer-derived cell line. In this study, we have started the cellular and biochemical characterization of RNASET2 and showed that it is a secreted glycoprotein. Moreover, we have extended our previous studies by evaluating the effect of RNASET2 on the metastatic behavior of the highly-invasive ovarian cancer cell line HEY3MET2. From such analysis, RNASET2 was found to significantly decrease the metastatic potential of this cell line in vivo. Moreover, RNASET2-mediated suppression of tumorigenesis and metastasis was not affected by a double point mutation targeted to the putative ribonuclease catalytic sites, suggesting that tumor suppression by RNASET2 is not mediated by its ribonuclease activity. The potential biological implications of this unexpected finding are discussed in relation to the current evolutionary models.