Abstract
Glioblastoma multiforme (GBM) is the most common primary malignant brain tumor in adults. Patients usually undergo surgery followed by aggressive radio- and chemotherapy with the alkylating agent temozolomide (TMZ). Still, median survival is only 12–15 months after diagnosis. Many human cancers including GBMs demonstrate addiction to MYC transcription factor signaling and can become susceptible to inhibition of MYC downstream genes. JQ1 is an effective inhibitor of BET Bromodomains, a class of epigenetic readers regulating expression of downstream MYC targets. Here, we show that BET inhibition decreases viability of patient-derived GBM cell lines. We propose a distinct expression signature of MYCN-elevated GBM cells that correlates with significant sensitivity to BET inhibition. In tumors showing JQ1 sensitivity, we found enrichment of pathways regulating cell cycle, DNA damage response and repair. As DNA repair leads to acquired chemoresistance to TMZ, JQ1 treatment in combination with TMZ synergistically inhibited proliferation of MYCN-elevated cells. Bioinformatic analyses further showed that the expression of MYCN correlates with Aurora Kinase A levels and Aurora Kinase inhibitors indeed showed synergistic efficacy in combination with BET inhibition. Collectively, our data suggest that BET inhibitors could potentiate the efficacy of either TMZ or Aurora Kinase inhibitors in GBM treatment.
Highlights
Glioblastoma multiforme (GBM) is characterized by considerably high rates of proliferation, invasion, and neovascularization, making this severe brain tumor difficult to cure[1]
(see figure on previous page) Fig. 5 bromodomain and extra terminal (BET) inhibition synergizes with Aurora A inhibition and promotes cell death in MYCN expressing GBM cells
JQ1-sensitive GBM cells showed significantly higher MYCN expression compared to JQ1-resistant cells, with a similar trend observed in the expression of AURKA (a, data downloaded from www.hgcc.se)
Summary
GBM is characterized by considerably high rates of proliferation, invasion, and neovascularization, making this severe brain tumor difficult to cure[1]. Standard course of treatment for GBM patients includes surgical resection as well as radio- and chemotherapy[2]. The alkylating agent temozolomide (TMZ) increases median patient survival[3]; only from 12 to 15 months. GBM occurs either as primary or secondary glioblastoma, with median onset age of 55 and 45 years, respectively[4]. GBM can be further classified based on expression profiles into three molecularly defined subtypes[5,6]: proneural, classical, and mesenchymal. Alterations in PDGFRA and point mutations in IDH1 are
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