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RESEARCH PRODUCT
Evaluation of genetic stability of the SYT gene rearrangement by break-apart FISH in primary and xenotransplanted synovial sarcomas
Manish Mani SubramaniamCarmen CardaSamuel NavarroRosa NogueraAntonio Llombart-boschMarta PiquerasJosé Antonio López-guerreroAntonio Pellínsubject
Cancer ResearchOncogene Proteins FusionXenotransplantationmedicine.medical_treatmentTransplantation HeterologousChromosomal translocationIn situ hybridizationBiologyTranslocation GeneticSarcoma SynovialProto-Oncogene ProteinsGeneticsmedicineAnimalsHumansMolecular BiologyGeneIn Situ Hybridization FluorescenceGene RearrangementGeneticsChromosomes Human XTissue microarrayGene rearrangementmedicine.diseaseMolecular biologyRepressor ProteinsTransplantationTissue Array AnalysisSarcomaChromosomes Human Pair 18description
Synovial sarcomas (SS) are infrequent and morphologically heterogeneous soft tissue sarcomas. The t(X;18)(p11.2;q11.2), which results in fusion of the SYT gene at 18q11 with the SSX1, SSX2, or (rarely) SSX4 gene is a primary genetic event in 90% of SS. To determine whether the t(X;18) present in the original tumor is maintained in its passages, a dual-color break-apart FISH assay for SYT gene disruption was performed in two tissue microarrays (TMA) comprising eight molecularly confirmed primary SSs and their xenografts, which were followed for several generations. A simplified scoring system was applied to the FISH results of the primary and xenotransplanted SS to classify the FISH data into distinct groups. SYT disruption was identified in all eight primary SS and in all their passages without any significant differences among them, despite wide variations in xenotransplantation time between the primary tumors and their xenografts. The TMA-based FISH assay demonstrated genetic stability related to SYT gene rearrangement in primary and xenografted SS.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2006-04-27 | Cancer Genetics and Cytogenetics |