Abstract PO1-29-01: Single agent and combinatorial efficacy with imipridone ONC206 via inhibition of mitochondrial function in preclinical models of chemorefractory triple negative breast cancer

Abstract

Abstract Breast cancer remains a major global health concern, with triple-negative breast cancer (TNBC) being one of the most aggressive subtypes associated with limited targeted therapies. Chemotherapy resistance in TNBC patients poses a significant clinical challenge and is associated with poor progression-free and overall survival. Thus, exploring novel approaches to improve chemotherapeutic efficacy is of paramount importance. We previously demonstrated a role for mitochondrial fusion in supporting oxidative phosphorylation (oxphos) activity and cell survival in residual TNBC (PMID: 30996079 and 36813854) cells refractory to chemotherapy treatments. Based on these observations, we sought to inhibit mitochondrial function to improve chemotherapeutic efficacy. We used ONC206, a novel agonist of mitochondrial serine protease, ClpP (Caseinolytic Mitochondrial Matrix Peptidase Proteolytic Subunit) to induce mitochondrial proteotoxic stress. ONC201, a parent molecule of ONC206, has shown efficacy in TNBC as a single agent or when combined with a MEK inhibitor in vitro (PMID: 34680527). We demonstrate treatment of TNBC cell lines with ONC206 results in reduced mitochondrial fusion and OXPHOS. Furthermore, ONC206 co-treatment enhanced chemo-sensitivity in vitro. Based on these promising findings, we tested this in orthotopic patient-derived xenograft (PDX) mouse preclinical trials. Three PDX models of TNBC were tested, BCM-2665, BCM-5471, and BCM-0002. ONC206 as a single agent (twice weekly for 4 weeks, oral gavage, 100mg/kg) significantly decreased tumor growth in all three PDX models. Remarkably, treatment ONC206 achieved nearly complete tumor regression as a single agent or when combined with carboplatin in BCM-2665. Regressed tumors did re-grow, but this was significantly delayed when combined with carboplatin. Treatment with ONC206 in BCM-5471 resulted in a modest but significant reduction in tumor growth rate as a single agent. However, ONC206 did not improve carboplatin (weekly, i.p., 50mg/kg) nor docetaxel (weekly, i.p., 20mg/kg) efficacy in this model. ONC206 treatment of BCM-0002 resulted in prolonged tumor stasis and a slight enhancement of docetaxel and carboplatin efficacy. Interestingly, the efficacy of ONC206 in these PDX models correlates with their relative mRNA expression of ClpP. The mice demonstrated tolerance to ONC206 as a single agent or when combined with chemotherapy during the course of treatment. Our study underscores the potentially crucial role of mitochondria in driving chemotherapy resistance in TNBC and provides novel insights into mitochondria-targeted therapeutic approaches. We report a novel targeting option for TNBC and anticipate that these findings will stimulate further research into innovative combination therapies for TNBC patients, and may lead us to a viable inhibitor. Citation Format: Lily Baek, Lacey Dobrolecki, Stefanie Faucher, Christina Sallas, Nia Griffith, Varun Prabhu, Bora Lim, Michael Lewis, Gloria Echeverria. Single agent and combinatorial efficacy with imipridone ONC206 via inhibition of mitochondrial function in preclinical models of chemorefractory triple negative breast cancer [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 PO1-29-01.