Abstract
Abstract Children with neuroblastoma exhibit marked variability in outcome based on age at diagnosis, disease stage and tumor biologic characteristics. Genomic amplification of MYCN is a potent oncogenic driver and negative prognostic marker in neuroblastoma patients. Therefore, there is a pressing need to identify therapeutic agents that target MYCN gene expression. The bromodomain and extra-terminal (BET) family of proteins are epigenetic regulators known to control expression of genes involved in cell growth and oncogenesis. Previous reports demonstrate that BET inhibition (BETi) significantly attenuates cellular proliferation in numerous cancer models, perhaps via modulation of the MYC and/or MYCN oncogenes. Here, we show that potent BET inhibition induces anti-tumor effects in preclinical neuroblastoma models. Specifically, GSK726 and GSK762 (GlaxoSmithKline) were used for in vitro cytotoxicity and in vivo therapeutic studies, respectively. Neuroblastoma cell lines (n=22) were treated with GSK726 to calculate IC50 values in a luminescence-based cell viability assay and differential sensitivity was observed with an IC50 range of 27 nM to 9.5 µM. In sensitive cell lines, cell cycle distribution and induction of apoptosis were also measured. In these cell lines, GSK726 treatment resulted in MYCN depletion, G1 arrest within 24 hours, and apoptosis as measured by cleaved-PARP. To assess in vivo efficacy, GSK762 was subcutaneously administered in xenograft models and in genetically engineered neuroblastoma mouse models overexpressing MYCN and MYCN/ALK F1174L in the neural crest. In both models, GSK762 treatment resulted in tumor growth delay. Further assessment of results seen in vitro and in vivo indicated that MYCN amplification status did not fully predict sensitivity to GSK726 or GSK762. Thus, to determine additional biomarkers of sensitivity, we examined baseline gene expression data at the extremes of IC50 values by comparing sensitive (n=6; IC50<128 nM) and resistant (n=4; IC50>940 nM) neuroblastoma cell lines. Gene expression data from the neuroblastoma cell lines generated on HuGene1.0ST expression microarrays (Affymetrix) were utilized, and data were analyzed using the Limma package in R/Bioconductor. Univariate analysis, with a false discovery rate less than 0.25, revealed 6 genes (PTER, PCDHB14, RFTN1, JAK2, MYCBP, and DACH1) that were differentially expressed between sensitive and resistant cell lines in the MYCN amplified setting. While all 6 genes predicted BETi sensitivity in the MYCN-amplified subset of cell lines, only DACH1 expression predicted sensitivity to BET inhibition irrespective of MYCN amplification status (p=7.92x10-7). In addition, high DACH1 expression was correlated with poor patient outcome (p=1.74x10-5). As a result, high DACH1 expression serves as a candidate biomarker for future studies with respect to sensitivity to BETi. Ultimately, these studies will help to optimize the clinical utility of BETi in neuroblastoma and perhaps other MYC-driven malignancies. Citation Format: Jason R. Healy, Robert W. Schnepp, Lori S. Hart, Pichai Raman, Laura Danielson, Michael Russell, Priya Khurana, Maria Gagliardi, Ryan M. Kinsey, Anastasia Wyce, Olena Barbash, Peter J. Tummino, Louis Chesler, John M. Maris. Antitumor activity and sensitivity evaluation of novel BET inhibitors in neuroblastoma. [abstract]. In: Proceedings of the AACR Special Conference on Myc: From Biology to Therapy; Jan 7-10, 2015; La Jolla, CA. Philadelphia (PA): AACR; Mol Cancer Res 2015;13(10 Suppl):Abstract nr B34.
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