Apart from the canonical SS18-SSX fusion, this is only the second alternative gene fusion variant described in synovial sarcoma to date, in addition to two cases harboring the SS18L1-SSX1 fusion.
Apart from the canonical SS18-SSX fusion, this is only the second alternative gene fusion variant described in synovial sarcoma to date, in addition to two cases harboring the SS18L1-SSX1 fusion.
Apart from the canonical SS18-SSX fusion, this is only the second alternative gene fusion variant described in synovial sarcoma to date, in addition to two cases harboring the SS18L1-SSX1 fusion.
Fluorescence in situ hybridization performed on the cell block demonstrated the presence of SYT (18q11) translocation, supporting the diagnosis of synovial sarcoma.
Therefore, TLE1 is not a specific biomarker for synovial sarcoma and should be evaluated with caution, particularly in cases in which the differential diagnosis may include other cutaneous tumors.
Fluorescence in situ hybridization performed on the cell block demonstrated the presence of SYT (18q11) translocation, supporting the diagnosis of synovial sarcoma.
We evaluated TLE-1 and CD99 expression in various carcinomas and evaluated the expression of the SS18 (SYT) gene rearrangement (a characteristic biomarker for synovial sarcoma) in tumors with TLE-1 and/or CD99 expression.
Meta-analyses showed that the test of detecting MDM2 amplification by fluorescence in situ hybridization was accurate in differentiating atypical lipomatous tumor/well-differentiated liposarcoma/dedifferentiated liposarcoma from benign tumors (N = 971; sensitivity = 95%, 95% confidence interval [CI] 89-98; specificity = 100%, CI 89-100) or from other STS (N = 347; sensitivity = 99%, CI 72-100; specificity = 90%, CI 78-95); that the test of detecting SS18-SSX fusion by reverse transcription polymerase chain reaction (PCR) was accurate in differentiating synovial sarcoma from other STS (N = 532; sensitivity = 93%, CI 85-96; specificity = 99%, CI 96-100).
We evaluated TLE-1 and CD99 expression in various carcinomas and evaluated the expression of the SS18 (SYT) gene rearrangement (a characteristic biomarker for synovial sarcoma) in tumors with TLE-1 and/or CD99 expression.
We demonstrate that BRD9 supports oncogenic mechanisms underlying the SS18-SSX fusion in synovial sarcoma and highlight targeted degradation of BRD9 as a potential therapeutic opportunity in this disease.
Additionally, we showed that SS can originate from periosteal cells expressing SS18-SSX alone and from preosteoblasts expressing the fusion oncogene accompanied by the added stabilization of β-catenin, which is a common secondary change in SS.