SUMMARY:Specific gene fusions observed in solid tumors are extremely useful diagnostic markers. We report the development of a method based on real-time PCR which enables the detection upon identical PCR conditions of the different fusions specifically observed in Ewing tumors (ET), alveolar rhabdomyosarcoma (ARMS), synovial sarcoma (SS), small round cell desmoplastic tumors (SRCDT), extraskeletal myxoid chondrosarcoma, malignant melanoma of soft parts, congenital fibrosarcoma, and anaplastic large cell lymphoma. A simple assay, based on multiplexing of primers and probes, is described for the routine genetic diagnosis of small round cell tumors of children. It enables the detection of the five EWS-ETS, the two PAX-FKHR, the three SYT-SSX, and the EWS-WT1 fusions of ET, ARMS, SS, and SRCDT, respectively. The sensitivity of this test is high enough to detect all fusions, including the large EWS-FLI-1 transcripts, with the equivalent of 100 tumor cells as a starting material. This multiplex fluorescent analysis of chromosome translocations (MFACT) was validated in comparison with conventional RT-PCR on a series of 79 tumors. A major advantage of this method is that it completely abolishes the manipulation of PCR-products. It, therefore, considerably lowers the risk of cross-contamination linked to carry-over of RT-PCR products. It also constitutes an important step toward the complete automation of the detection of cancer-specific gene fusions. (Lab Invest 2001, 81:905-912).
Cadherins are a family of transmembrane glycoproteins that mediate Ca 2 þ -dependent homophilic cell-cell adhesion and play a crucial role in cell differentiation. E-cadherin-mediated cell-cell adhesion is lost during the development of most epithelial cancers. This study examines cadherin-dependent adhesion in cell lines derived from rhabdomyosarcoma (RMS), a highly malignant softtissue tumor committed to the myogenic lineage, but arrested prior to terminal differentiation. We analysed the expression of cadherins and associated catenins at the mRNA and protein levels as well as their localization in nine RMS-derived cell lines relative to normal myoblasts. We show a decrease in the expression of cadherins and catenins in all RMS-derived cell lines compared to control cells. This decrease in the expression of N-and M-cadherin was confirmed in RMS biopsies. In contrast, R-cadherin is found expressed in RMS, whereas it is normally absent in normal myoblasts. We show that a decrease of R-cadherin expression using RNA interference inhibits cell proliferation of the RD cell line. In addition to their diminished expression, cadherins and catenins do not localize to intercellular contacts in embryonal RMS (ERMS), whereas specific persistent localization is seen in alveolar RMS (ARMS)-derived cell lines. Thus, RMS exhibit defects in the expression of molecules of the cadherin family. Defects in the localization of these adhesion molecules at the sites of cell-cell contact are specifically observed in the ERMS subtype. In addition, our data suggest that R-cadherin is a specific diagnostic marker for RMS and is also an important factor of RMS cell proliferation.
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