Reprogramming the suppressive tumor microenvironment of breast cancer

Background: Immune checkpoint inhibitors (ICIs) provide benefit for immunogenic cancers that naturally attract T cell infiltration, but have limited benefit for patients with tumors that lack natural T cells in the tumor microenvironment (TME) including many breast cancers. Suboptimal and inconsistent immune responsiveness in many cancers is likely the result of a lack of tumor antigen expression and/or recognition together with multiple suppressive signals within the TME that provide a formidable barrier to T cell infiltration. Emerging data suggest that these factors can be overcome by combining epigenetic modulation that reprograms myeloid-derived suppressor cells (MDSCs) and upregulate T cell-attracting signals within the TME, with ICIs. Our paralleled preclinical and clinical trial investigates the mechanisms and efficacy of the epigenetic modulator, entinostat (ENT) to reprogram the immune suppressive cells within the TME. Methods: We conducted a multicenter phase 1 clinical trial (NCT02453620) of entinostat combined with nivolumab +/- ipilimumab in patients with advanced cancers including hormone-receptor positive or triple-negative breast cancer (TNBC). Mandatory tumor samples are being obtained pre-treatment, post-treatment with 2 weeks of entinostat, and 8 weeks post combination therapy with ICIs. We used immunohistochemical (IHC) for CD8 and FoxP3 to determine a ratio representative of immune infiltration in response to therapy. Preclinical studies utilize mouse models of breast cancer (NeuN and 4T1) and mirror the treatment scheme used in the clinical trial. We employed multiparameter flow cytometry, single cell RNA sequencing, bulk RNA sequencing of tumor specimens and patient samples to specifically interrogate the role of ENT in modulating STAT3 as a master regulator of downstream inflammatory pathways. Results: With regard to the clinical trial, out of 35 patients enrolled, 11 were diagnosed with breast cancer. We observed 4 partial responses, 2 responses in patients with breast cancer, with an ORR of 12%. We have almost completed accrual of our expansion cohort of 15 patients with advanced HER2 negative breast cancer. The primary outcomes of the clinical trial will be reported elsewhere, here we are focusing on important correlative findings which suggest a combination of ENT with ICIs alters CD8/FoxP3 ratios in certain patients. Bulk-RNA sequencing or patient samples is underway. Preliminary data from animal models obtained using scRNA-seq has begun to elucidate altered MDSC signaling pathways, and to identify gene expression changes in immune, stromal, and tumor cells following treatment with ENT. These data are also expected to identify new targets for ICI sensitization. Conclusions: Preliminary results with IHC staining suggests increased immune infiltration with combination therapy. Sequencing analysis will likely provide deeper insight into mechanisms driving response. The mechanisms of response to ICIs in patients with breast cancer have yet to be elucidated. These studies will provide the necessary scientific evidence to uncover mechanisms behind the transformation of the immunosuppressive TME and provide new targets that could improve clinical response to ICIs to maximize patient survival. The core biological themes explored will likely have a broad impact in the field of breast cancer and affect the paradigm of therapies available to patients in the clinic. These findings will help determine how treatment with ICIs will be successful to obtain durable responses for breast cancer patients. Citation Format: Evanthia T Roussos Torres, Luciane Tsukamoto Kagohara, Emily Davis, Christine Rafie, Brian Christmas, Qingfeng Zhu, Chenguang Wang, David Lim, Robert Anders, Elana Fertig, Vincent Chung, Patricia Lorusso, Adam Brufsky, Elizabeth M Jaffee, Vered Stearns, Roisin Connolly. Reprogramming the suppressive tumor microenvironment of breast cancer [abstract]. In: Proceedings of the 2019 San Antonio Breast Cancer Symposium; 2019 Dec 10-14; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2020;80(4 Suppl):Abstract nr P5-04-06.