Abstract P1-08-01: Combination checkpoint inhibition and epigenetic modulation promotes tumor suppression and improves survival in Her2+ models of breast cancer

Background: Checkpoint inhibition is a very successful treatment strategy in cancers that are naturally immunogenic by attracting T cells into the tumor microenvironment (TME) and promoting cytotoxic signaling pathways. While this strategy has shown some efficacy in metastatic breast cancer, most breast cancers are not highly immunogenic likely due to an immunosuppressive microenvironment and a lack of tumor antigen expression and recognition. One strategy to transform the breast TME is to use epigenetic modulation to affect activation and trafficking of myeloid derived suppressor cells (MDSCs), known to alter the immunogenicity of the TME and sensitize tumors to checkpoint modulation. We hypothesize that combinatorial therapy primes the TME by altering infiltration and function of MDSCs leading to a more robust T cell response. Methods: We are using a HER-2/neu transgenic mouse model with tumor challenge of syngeneic cell lines to test the efficacy of different combinations of an epigenetic agent, the histone deacetylase inhibitor entinostat (ENT), checkpoint inhibitors anti -programmed cell death protein (a-PD-1) and anti-cytotoxic T-lymphocyte-associated protein 4 (a-CTLA-4) antibodies, with and without anti-HER2 antibodies. We will examine treatment effects on tumor growth, and hope to identify co-stimulatory and inhibitory factors regulating T cell and MDSC responses. Characterization of tumor infiltrating lymphocytes and their functional capabilities are being investigated in primary tumors using fluorescence-activated cell sorting, nanostring gene expression profiling, and immunohistochemistry. Results: We found significant improvement in survival and delay in tumor growth in mice treated with ENT in combination with a-PD-1 and/or a-CTLA-4. Addition of anti-HER2 therapy to ENT and a-CTLA4 or a-PD1 also significantly improves survival and delay in tumor growth. We also found addition of ENT to checkpoint inhibition leads to significantly increased infiltration of granulocytic-MDSCs into the TME. We demonstrate an increase in CD8+ T effector cells in mice treated with combination therapy. Flow cytometric evaluation of markers of T cell activation, exhaustion, and MDSC function demonstrate significantly increased T cell activation, exhaustion, and myeloid function however it is unclear how this directly effects the phenotype we have observed in these mice. Gene expression profiling of both MDSCs and lymphocytes infiltrating tumors is underway to help determine significant changes in immune related pathways that lead to our observed outcomes. Conclusions: Addition of ENT to checkpoint inhibition significantly increases infiltration of innate and adaptive immune cells into the highly tolerant neu-N breast tumors and leads to improved survival and decreased tumor burden. Functional assays are underway and future studies will further delineate changes in immune infiltration as well as genetic alterations responsible for these observations. It is our hope that these novel findings will provide further rationale for combination therapy and improve the response rate of these immune therapies in patients with breast cancer. Citation Format: Roussos Torres ET, Ma H, Christmas B, Armstrong T, Jaffee EM. Combination checkpoint inhibition and epigenetic modulation promotes tumor suppression and improves survival in Her2+ models of breast cancer [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 P1-08-01.