Abstract
Abstract We used a new mouse model to better understand the cellular and molecular determinants of tumors driven by the C11orf95-RELA fusion. Our approach makes use of in utero electroporation and a binary transposase system to introduce human C11orf95-RELA sequence, wild type and mutant, into neural progenitors, and drive expression of the fusion in different glial and neuronal progenitor cell types. Our results indicate that truncations or point mutations in C11orf95 sequence which interfere with nuclear localization result in a complete loss of tumor-inducing activity. The mutations include truncations of the first 60 amino acids, internal truncations that delete possible mono and bipartite nuclear localization signals, and point mutations of two cysteines and histidines that make up a possible zinc finger domain in C11orf95. Interestingly, all of the mutations that block tumorigenesis also block signal independent nuclear localization of the wild type fusion, without blocking induction of NFKB response genes. We further found that over-expression of the NFKB1 subunit P50 which lacks a transcriptional activation domain significantly inhibits tumor formation by the fusion. In addition, we find that driving expression of the wild type fusion in glial progenitor types using promoters for either astrocytes or oligodendrocytes results in the formation of tumors with transcriptomes displaying significant similarities to human supratentorial ependymoma (ST-EPN), but with distinct patterns depending upon the glial progenitor promoter utilized. In contrast, promoters driving expression selectively in neuron restricted progenitors do not result in the formation of ST-EPN. Together our results reveal three new features of C11orf95-RELA driven tumorigenesis: i) multiple sequences within the C11orf95 domain are required for oncogenic driver activity of the fusion, ii) the P50 subunit of NFKB1 can inhibit fusion induced tumorigenesis, and iii) neuron-restricted precursors are less competent than glia-restricted precursors to form tumors induced by C11orf95-RELA.
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