Novel combination therapy targeting rDNA transcription and Histone Deacetylation Provides Effective Treatment for Multiple Myeloma, and Synergises in Bortezomib-Resistant MM

Abstract

Background: Multiple myeloma (MM) requires combination drug therapies to delay acquired drug resistance and clinical relapse. We co-developed CX-5461, a highly-selective inhibitor of RNA polymerase I-mediated rDNA transcription(1), currently in phase I trials for relapsed haematological malignancies (Peter Mac). CX-5461 produces a targeted nucleolar DNA damage response (DDR), triggering both a p53-dependent and -independent nucleolar stress response and killing malignant cells while sparing normal cells(2,3). Single-agent CX-5461 provides an impressive survival benefit in mouse models of B-cell lymphoma, acute myeloid leukaemia and now MM(2,4,5). However, drug resistance eventually occurs, confirming the need for combination therapies. Aim: To test the efficacy of CX-5461 in combination with the histone deacetylase inhibitor panobinostat, (prioritised from a boutique high-throughput screen of anti-myeloma agents), with a focus on the setting of resistance to proteasome-inhibitors (PIs). Methods: We assessed the impact of CX-5461 and panobinostat on overall survival in mouse models of MM, then surveyed the effects on cellular response and molecular markers of DDR. We developed bortezomib-resistant cell lines and an in vivo model of bortezomib-resistance to test this combination in the setting of PI-resistance. Results: CX-5461 in combination with panobinostat provides a significant survival advantage in both the transplanted Vk*MYC and the 5T33/KaLwRij models, with minimal bone marrow toxicity. Show more