The (Epi)genetics of human synovial sarcoma

Human synovial sarcomas are aggressive soft tissue tumors with relatively high rates of recurrences and metastases. They display a variable response to common treatment protocols such as radiation and chemotherapy. For the development of novel diagnostic, prognostic, and therapeutic approaches, deta...

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Bibliographic Details
Published in:Genes chromosomes & cancer 2007-02, Vol.46 (2), p.107-117
Main Authors: de Bruijn, Diederik R. H., Nap, Jan-Peter, van Kessel, Ad Geurts
Format: Article
Language:English
Subjects:
chromatin remodeling complexes
Epigenesis, Genetic - physiology
Gene Expression Regulation, Neoplastic
high-dose ifosfamide
Humans
in-situ hybridization
leucine-zipper motif
nuclear receptor coactivator
paraffin-embedded tissues
polymerase-chain-reaction
prognostic-factors
proto-oncoprotein syt
Sarcoma, Synovial - genetics
ssx fusion transcripts
Translocation, Genetic
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Summary:Human synovial sarcomas are aggressive soft tissue tumors with relatively high rates of recurrences and metastases. They display a variable response to common treatment protocols such as radiation and chemotherapy. For the development of novel diagnostic, prognostic, and therapeutic approaches, detailed information on the molecular mechanisms underlying the development of these tumors is of imperative importance. Fusion of the SS18 and (one of the) SSX genes is a molecular hallmark of human synovial sarcomas. The SS18 and SSX genes encode nuclear proteins that exhibit opposite transcription regulatory activities, likely through epigenetic mechanisms. The SS18 protein functions as a transcriptional coactivator and interacts directly with members of the epigenetic chromatin remodeling and modification machineries. In contrast, the SSX proteins function as transcriptional corepressors and are associated with several Polycomb group proteins. Since the domains involved in these apparently opposite transcription regulatory activities are retained in the SS18–SSX fusion proteins, we hypothesize that these fusion proteins function as “activator–repressors” of transcription. The implications of this model for human synovial sarcoma development and future treatment are discussed. © 2006 Wiley‐Liss, Inc.
ISSN:1045-2257
1098-2264
DOI:10.1002/gcc.20399