Abstract 1374: Preclinical investigation of ATR inhibition alone and in combination with PARP inhibition in high risk neuroblastoma

Abstract

Abstract Background:Neuroblastoma (NB) is the commonest extra-cranial malignant solid tumour of childhood and one of the most difficult to cure. DNA damage response (DDR) defects are frequently observed in high risk NB including allelic loss and loss of function mutations in key DDR genes, oncogene induced replication stress (RS) and cell cycle checkpoint dysfunction. Cancer cells with defective cell cycle checkpoint signalling and/or increased oncogene-driven RS are acutely dependent on the DNA damage sensor kinase ATR. This study aims to identify features of NB cell lines leading to ATR inhibitor sensitivity. As PARP inhibition causes RS through unrepaired single strand DNA breaks progressing to replication, we hypothesise that ATR inhibition will increase PARP inhibitor cytotoxicity. Aims: 1) To determine which molecular features lead to sensitivity to VE-821 (ATR inhibitor) in cell lines derived from high-risk NB tumours. 2) To assess synergism between PARP inhibition with olaparib and ATR inhibition in high risk NB cell lines and to measure RS. Materials and Methods: Cell proliferation in response to 72 hours treatment with VE-821 was assessed by XTT assay (Roche) in a panel of 11 NB cell lines and the effect of ATR inhibition on olaparib growth inhibition in 4 cell lines: SHSY5Y, SKNAS, NGP and N20_R1. CHK1S345 and H2AXS129 phosphorylation was assessed using Western blotting to determine ATR activity and RS respectively. RS was also measured by γH2AX foci formation using immunofluorescent microscopy. Results: VE-821 caused significantly more growth inhibition in MYCN amplified cell lines and cell lines with low ATM protein expression by XTT assay (p<0.05 Mann-Whitney U test). Olaparib (5 µM) treatment increased CHK1S345 and H2AXS129 phosphorylation after 24 hours treatment in all cell lines. H2AXS129 phosphorylation and foci number was further increased with the addition of VE-821 (1 µM). ATR inhibition prevented CHK1S345 phosphorylation. In cell proliferation assays, combination index analysis (Calcusyn) showed that ATR inhibition by VE-821 is synergistic with olaparib at sub lethal concentrations (<1 µM) (CI value 0.04-0.89). Conclusion: MCYN amplification and low ATM protein expression are determinants of ATRi sensitivity in NB cell lines. ATR inhibition by VE-821 is synergistic with olaparib at sub lethal concentrations (<1 µM) and further increases the replication stress caused by PARP inhibition. Citation Format: Harriet E. Southgate, Lindi Chen, Nicola J. Curtin, Deborah A. Tweddle. Preclinical investigation of ATR inhibition alone and in combination with PARP inhibition in high risk neuroblastoma [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 1374.