Publication: RING1B contributes to Ewing sarcoma development by repressing the Na(V)1.6 sodium channel and the NF-kappa B pathway, independently of the fusion oncoprotein
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2016-07-19
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Hernandez-Munoz, Inmaculada
Figuerola, Elisabeth
Sanchez-Molina, Sara
Rodriguez, Eva
Isabel Fernandez-Marino, Ana
Pardo-Pastor, Carlos
Isabel Bahamonde, Maria
Fernandez-Fernandez, Jose M.
Garcia-Dominguez, Daniel J.
Hontecillas-Prieto, Lourdes
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Impact journals llc
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Abstract
Ewing sarcoma (ES) is an aggressive tumor defined by EWSR1 gene fusions that behave as an oncogene. Here we demonstrate that RING1B is highly expressed in primary ES tumors, and its expression is independent of the fusion oncogene. RING1B-depleted ES cells display an expression profile enriched in genes functionally involved in hematological development but RING1B depletion does not induce cellular differentiation. In ES cells, RING1B directly binds the SCN8A sodium channel promoter and its depletion results in enhanced Nav1.6 expression and function. The signaling pathway most significantly modulated by RING1B is NF-kappa B. RING1B depletion results in enhanced p105/p50 expression, which sensitizes ES cells to apoptosis by FGFR/ SHP2/STAT3 blockade. Reduced Na(V)1.6 function protects ES cells from apoptotic cell death by maintaining low NF-kappa B levels. Our findings identify RING1B as a trait of the cell-of-origin and provide a potential targetable vulnerability.
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RING1B, Ewing sarcoma, voltage-gated sodium channel, NF-kappa B, FGFR/SHP2/STAT3, Fibroblast-growth-factor, Marrow stromal cells, In-vivo, Neuroectodermal tumors, Neural differentiation, Tyrosine-phosphatase, Genomic landscape, Histone h2a, Stem-cells, Family