Abstract Triple-negative breast cancer (TNBC) is an aggressive subtype of breast cancer that is currently incurable with conventional chemotherapy. Some TNBC patients harbor either recurrent somatic gain-of-function mutations or focal amplification in genes coding for Notch receptors. Recent findings suggest that Notch signals, in the absence of Notch mutations are also important to maintain chemotherapy-resistant circulating tumor cells. Importantly, elevated Notch signaling is specifically enriched in the TNBC and is associated with worse survival in this subtype. These findings underscore the importance of Notch signaling in pathogenesis of TNBC and suggest potential new avenue for therapeutic approaches. Despite this, the target genes and oncogenic mechanisms downstream of aberrant Notch signaling are poorly understood. To create a high confidence map of the oncogenic Notch-driven regulome in TNBC, we performed an integrative, comprehensive and functional genome-wide analysis of Notch-driven targets in Notch-mutated TNBC cell lines by combining high-resolution genome-wide chromatin topology data (HiChIP), dynamic mapping of Notch transcriptional complex members and active and repressive chromatin marks (ChIP-seq), as well as evaluation of dynamic transcription (RNAseq) in presence and absence of Notch signals. One important oncogene and critical Notch target in TNBC is MYC. Our integrative analysis identified detailed map of Notch-dependent MYC regulatory network. The TNBC-specific MYC regulatory region, located 5' of MYC, is much more complex compared to other known Notch-driven malignancies and constitutes of a broad domain of active enhancers marked by H3K27ac that are not present in Notch-driven lymphoma and leukemia. Integrative analysis of ChIP-seq and HiChIP revealed multiple enhancers within this broad domain of regulatory elements that are directly bound by the members of Notch transcriptional complex, sensitive to acute changes in Notch activation and that contact MYC promoter via tumor specific chromatin loops. We showed that genetic perturbation of MYC by CRISPR/Cas9 approach was sufficient to kill TNBC cells. Since, MYC is difficult to target pharmacologically an alternative strategy is to use drugs that inhibit factors regulating MYC expression. To this end, elucidating the Notch regulatory landscape, and in particular, the mechanism by which Notch regulates MYC expression in TNBC may reveal new therapeutic strategies to precisely target MYC in Notch-dependent breast cancer. Citation Format: Petrovic J, Zhou Y, Georgakilas G, Vahedi G, Pear WS, Faryabi RB. Triple negative breast cancer-specific chromatin conformation links Notch signal to tumor-specific transcriptional program [abstract]. In: Proceedings of the 2017 San Antonio Breast Cancer Symposium; 2017 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2018;78(4 Suppl):Abstract nr P2-04-07.
Read full abstract