The reciprocal translocation t(X;18)(p11;q11) is known to be highly characteristic of synovial sarcoma, and its consequence, an SYT-SSX fusion gene, is expected to be a diagnostic molecular marker. In this study, we conducted a reverse transcription-polymerase chain reaction-based assay to detect the SYT-SSX fusion gene transcripts using archival formalin-fixed, paraffin-embedded tumor specimens from a series of 32 synovial sarcoma cases including 6 tumors found in unusual anatomical sites. The SYT-SSX fusion transcripts could be detected in 30 of 32 paraffin-embedded specimens (94%). A subsequent sequence analysis using the polymerase chain reaction products confirmed that the detected messages were derived from either the SYT-SSX1 (22 cases) or SYT-SSX2 (8 cases) fusion gene. Of 23 SYT-SSX-positive monophasic tumors, 16 tumors had an SYT-SSX1 fusion transcript. Fusion transcripts were detectable in all the 7 biphasic tumors analysed, one of which had an SYT-SSX2 fusion transcript. All of the six tumors at unusual locations (lung; 3, metastasis to the abdominal cavity from a tumor of retroperitoneal origin; 1, sacral region; 1, iliopsoas muscle; 1) contained detectable messages. Our results indicate that this molecular assay can be applied to archival formalin-fixed, paraffin-embedded tumor tissues as a feasible and reliable molecular technique for the diagnosis of synovial sarcoma.
The reciprocal translocation t(12;16)(q13;p11) has been shown to be highly characteristic of myxoid and round cell subtypes of liposarcoma, and the TLS/FUS-CHOP fusion gene that resulted from the translocation is expected to be a diagnostic molecular marker of these sarcomas. In this study, we conducted a nested reverse transcription-polymerase chain reaction (RT-PCR)-based assay to detect the TLS/FUS-CHOP fusion gene transcripts using archival formalin-fixed, paraffin-embedded tumor specimens. Of 18 paraffin-embedded specimens from 16 myxoid and round cell liposarcoma cases, the fusion transcripts could be identified in 16 (89%) specimens from 15 (94%) cases. A sequence analysis using the PCR products confirmed that the detected messages were derived from either type I or type II TLS/FUS-CHOP fusion gene, the latter of which was predominant (80%). The results were consistent in primary and recurrent lesions of the same patients and in paraffin-embedded and snap-frozen samples from the same tumors. In two negative specimens, transcripts of the beta-actin gene could not be detected by RT-PCR, and intact mRNA including the fusion messages might have been degraded. No fusion transcripts were detected in snap-frozen or paraffin-embedded material of other types of tumors with myxoid morphology (seven myxoid malignant fibrous histiocytomas and four lipomas with myxoid change). These results indicate that this molecular assay can be applied to formalin-fixed, paraffin-embedded tumor tissues as a diagnostic aid for these subtypes of liposarcoma.
Chromosomal translocations generating unique chimeric genes are highly characteristic of specific sarcomas, and their use as diagnostic markers has been suggested. From a diagnostic pathologic point of view, detection of such cytogenetic or molecular aberrations applicable to routinely processed archival tissue specimens is considered a powerful tool for tumor diagnosis. To assess the feasibility and reliability of the molecular detection of the transcript originating from the chimeric gene in paraffin‐embedded tumor specimens, we performed a nested reverse transcription‐polymerase chain reaction (RT‐PCR)‐based assay to detect the EWS‐FLI1 chimeric message in a series of Ewing family tumors. Of 24 paraffin‐embedded tumor specimens from 23 cases analyzed, the chimeric message was detectable in 20 (83%) specimens from 20 cases (87%) by this nested RT‐PCR assay, whereas none of 7 small round cell tumors not from this family (3 alveolar rhabdomyosarcomas, 2 neuroblastomas, 2 malignant lymphomas) showed detectable chimeric messages. In the sequence analysis of the PCR products, the amplified chimeric messages contained the junctions between exon 7 of the EWS gene and any one of exons 5, 6 and 8 of the FLI1 gene. The detection process was usually completed within 3 days, except for the subseqent sequence analysis. Our results endorse the use of this molecular assay as an ancillary technique in the diagnosis of Ewing family tumors using paraffin‐embedded material.
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