Gene/Protein
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
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Query: UNIPROT:Q86TM3 (
cage
)
29,987
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Synovial sarcoma is a soft tissue
cancer associated
with a recurrent t(X:18) translocation that generates one of two fusion proteins, SYT-SSX1 or
SYT-SSX2
. In this study, we demonstrate that
SYT-SSX2
is a unique oncogene. Rather than confer enhanced proliferation on its target cells,
SYT-SSX2
instead causes a profound alteration of their architecture. This aberrant morphology included elongation of the cell body and formation of neurite-like extensions. We also observed that cells transduced with
SYT-SSX2
often repulsed one another. Notably, cell repulsion is a known component of ephrin signaling. Further analysis of
SYT-SSX2
-infected cells revealed significant increases in the expression and activation of Eph/ephrin pathway components. On blockade of EphB2 signaling
SYT-SSX2
infectants demonstrated significant reversion of the aberrant cytoskeletal phenotype. In addition, we discovered, in parallel, that
SYT-SSX2
induced stabilization of the microtubule network accompanied by accumulation of detyrosinated Glu tubulin and nocodazole resistance. Glu tubulin regulation was independent of ephrin signaling. The clinical relevance of these studies was confirmed by abundant expression of both EphB2 and Glu tubulin in
SYT-SSX2
-positive synovial sarcoma tissues. These results indicate that
SYT-SSX2
exerts part of its oncogenic effect by altering cytoskeletal architecture in an Eph-dependent manner and cytoskeletal stability through a concurrent and distinct pathway.
...
PMID:The synovial sarcoma SYT-SSX2 oncogene remodels the cytoskeleton through activation of the ephrin pathway. 1768 94
This study demonstrates deregulation of polycomb activity by the synovial sarcoma-associated
SYT-SSX2
oncogene, also known as SS18-SSX2. Synovial sarcoma is a soft tissue
cancer associated
with a recurrent t(X:18) translocation event that generates one of two fusion proteins, SYT-SSX1 or
SYT-SSX2
. The role of the translocation products in this disease is poorly understood. We present evidence that the
SYT-SSX2
fusion protein interacts with the polycomb repressive complex and modulates its gene silencing activity.
SYT-SSX2
causes destabilization of the polycomb subunit Bmi1, resulting in impairment of polycomb-associated histone H2A ubiquitination and reactivation of polycomb target genes. Silencing by polycomb complexes plays a vital role in numerous physiological processes. In recent years, numerous reports have implicated gain of polycomb silencing function in several cancers. This study provides evidence that, in the appropriate context, expression of the
SYT-SSX2
oncogene leads to loss of polycomb function. It challenges the notion that cancer is solely associated with an increase in polycomb function and suggests that any imbalance in polycomb activity could drive the cell toward oncogenesis. These findings provide a mechanism by which the
SYT-SSX2
chimera may contribute to synovial sarcoma pathogenesis.
...
PMID:The synovial sarcoma-associated SYT-SSX2 oncogene antagonizes the polycomb complex protein Bmi1. 1933 76
