Abstract

Abstract Research Objectives and Rationale: Previously, RARγ agonism has been shown to play an essential role in CD8 T-cell-mediated immunity to infectious pathogens. However, we found no previous reports on effects of RARγ agonists on in vivo tumor growth of triple negative or Her2+ breast cancers. Here we explored whether RARγ could play a critical role in T-cell-mediated immunity in these breast cancers, using potent highly selective novel RARγ agonist compounds. Experimental methods and results: We synthesized and screened compounds for selective transactivation of RAR γ in reporter assays. Three highly potent compounds, demonstrating highly selective RARγ transactivation at less than one nanomolar concentrations, were selected for further evaluation of potential anti-cancer activities in vitro. None of the three evaluated compounds demonstrated significant inhibitory effects on in vitro growth of EMT-6 triple negative breast cancer cells at concentrations of 20-100 millimolar, indicating that the three compounds have insignificant direct inhibitory effects on EMT-6 cancer cell growth in vitro. We then examined the effects of one of the compounds in vivo in a syngeneic mouse model of EMT-6 triple negative breast cancer. Treatment with the most potent of the three compounds, IRX5010, demonstrated dose response inhibition of in vivo growth of EMT-6 tumors. Inhibition of tumor growth at day 17 relative to vehicle was 59% and 69% respectively in mice treated with IRX5010 at 10 or 25 mg/kg/day. A cohort treated with 50 mg/kg/day was sacrificed early on day 12 due to excessive weight loss and deaths of some of the animals. This cohort experienced a 73% inhibition of tumor growth relative to vehicle. Gross necropsies of animals in the 25 and 50 mg/kg/day dose groups did not show observable pathologic findings in any major organ. Flow cytometry was performed on freshly excised tumors on the day of termination of the in-life portion of the study in the 10 and 25 mg/kg/day dose groups. Tumors from mice treated with IRX5010 had increased intratumoral numbers of Total CD45+ cells; Total CD3+, Total CD4+, and Total CD8+ T-cells per mg of tumor tissue, relative to vehicle controls. IRX5010 treated mice also had increased intratumoral CD4+IL-17+ T-helper cells; and increased CD4+CD62L- and CD8+CD62L- T-effector memory T-cells per mg of tumor tissue relative to vehicle-treated control mice. We also conducted an experiment of treatment with IRX5010 in mice transplanted with human immune cells (to provide a human immune system) to examine its effects on xenografted human Her2+ JIMT-1 cancer cells. In this model, treatment with IRX5010 at 10 mg/kg/day resulted in a 17% inhibition of tumor growth relative to vehicle control over 26 days of treatment. Flow cytometric analysis showed that tumors from the IRX5010 treated mice contained increased numbers per mg of tumor tissue of intratumoral human CD8+ T-cells, most of which were CD8+ CD7- CD45RA+ terminally differentiated effector memory phenotype T-cells. Conclusions: Treatment with IRX5010, a potent and highly selective RARγ nuclear receptor agonist compound demonstrated substantial treatment effects relative to vehicle control on inhibition of growth of murine triple negative breast cancer in vivo, despite having essentially no growth inhibitory effect on these cells in vitro. Treatment of xenografted human Her2+ tumors in mice with humanized immune systems resulted in a moderate inhibition of Her2+ breast cancer growth relative to vehicle controls. In both models, treatment with IRX5010 induced tumor infiltrating T-lymphocytes of largely effector memory phenotypes, demonstrating an effect on the tumor immune microenvironment. These data identify RARγ and RARγ agonists as a new treatment target and novel treatment modality for breast cancers, especially for the highly unmet need for new and better treatments for triple negative breast cancer. Citation Format: Martin Sanders, Mary Topalovski, Vidyasagar Vuligonda. IRX5010, a Highly Selective RARγ Nuclear Receptor Agonist Compound Inhibits In Vivo Growth of Murine EMT-6 Triple Negative Breast Cancer and Human JIMT-1Her2+ Breast Cancer By Induction of Tumor-Infiltrating Effector Memory T-cells [abstract]. In: Proceedings of the 2023 San Antonio Breast Cancer Symposium; 2023 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2024;84(9 Suppl):Abstract nr PO5-24-12.

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