Abstract

Abstract PURPOSE: Despite remarkable improvements in childhood cancer survival, certain high-risk entities including malignancies of the nervous system still carry dismal prognoses. Retinoic acid (RA) treatment has long been administered in high-risk neuroblastoma patients and preclinical data suggest a benefit in applying retinoids in selected brain tumor entities. However, limited single-agent efficacy and developing treatment resistance provide a rationale for investigating improved combination treatments. METHODS: We assessed the RA sensitivity of 16 cell lines and patient-derived cultures of pediatric nervous system tumors from the INFORM (INdividualized Therapy FOr Relapsed Malignancies in Childhood) registry. Bulk RNA sequencing was performed for five sensitive models undergoing RA treatment. All models were screened for drug sensitivity to 76 clinically relevant drugs alone and combined with RA. Beneficial hit combinations were further investigated for synergy, as well as their effect on differentiation and apoptosis by high-content fluorescence microscopy and caspase activity assay. Results from in vivo experiments are pending. RESULTS: Group 3 medulloblastoma and high-risk neuroblastoma models were most sensitive to RA treatment leading to significant changes in gene expression of apoptotic regulation. Drug sensitivity screening revealed similar patterns of response to combination treatments in MYC-driven Group 3 medulloblastomas and MYCN-amplified neuroblastomas. Apoptosis regulating BCL-XL-inhibitors (A-1155463, navitoclax) were identified as top hits across RA sensitive models, whereas epigenetic BET family inhibitor I-BET151 and histone deacetylase inhibitor entinostat suggested entity-specific combination benefits in neuroblastoma and medulloblastoma models, respectively. In both entities, combining RA with navitoclax was synergistic and significantly increased caspase-3 activity. The combination led to a morphological shift from differentiation under RA treatment to cell death. CONCLUSION: Exploring combinations for RA treatment in pediatric nervous system tumors, we found that MYC(N)-driven medulloblastoma and neuroblastoma not only share responsiveness to RA treatment, but also demonstrate enhanced vulnerability in combination with BCL-XL-inhibition resulting in increased apoptosis.

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