Abstract P15: Aberrant Non-canonical NF-κB Signalling Reprograms the Epigenome Landscape to Drive Oncogenic Transcriptomes in Multiple Myeloma

Abstract

Abstract Activation of the NF-κB pathway is recognized to be necessary for the survival and progression of haematological cancers including Multiple Myeloma (MM). In particular, recurrent genetic lesions resulting in the chronic induction of non-canonical NF-κB (ncNF-κB) signalling have been exclusively linked to MM. Such mutations among patients are associated with significant proliferative and metastatic advantages and have been causally linked to treatment resistance. How the constitutive activity of ncNF-κB transcription factors can support such adaptations in this common haematological malignancy has been a fundamental question in cancer. In this study, we captured the epigenomic landscape of patient-derived MM cell lines harbouring recurrent NF-κB activating mutations through perturbation of nfkb2/p52 and integrated these cis-regulatory changes with MM patient epigenome data. Here, we find that sustained NF-κB/p52 levels resulting from such mutations favours the recruitment of enhancers beyond the normal B-cell repertoire. Furthermore, through targeted disruption of p52, we characterise how such enhancers are complicit in the formation of super-enhancers and the establishment of cis-regulatory interactions with myeloma dependencies during constitutive activation of p52. Finally, we functionally validate the pathological impact of these cis-regulatory modules on cell and tumour phenotypes using in vitro and in vivo models, confirming RGS1 as a novel p52-dependent myeloma driver. We conclude that the divergent epigenomic reprogramming enforced by aberrant non-canonical NF-κB signalling potentiates transcriptional programs beneficial for multiple myeloma progression. Citation Format: Daniel A. Ang, Jean-Michel Carter, Kamalakshi Deka, Joel H.L. Tan, Jianbiao Zhou, Qingfeng Chen, Wee Joo Chng, Nathan Harmston, Yinghui Li. Aberrant Non-canonical NF-κB Signalling Reprograms the Epigenome Landscape to Drive Oncogenic Transcriptomes in Multiple Myeloma [abstract]. In: Proceedings of Frontiers in Cancer Science; 2023 Nov 6-8; Singapore. Philadelphia (PA): AACR; Cancer Res 2024;84(8_Suppl):Abstract nr P15.