Abstract 4970: Oxidative phosphorylation as a target in triple negative breast cancer therapy

Abstract

Abstract Altered cellular metabolism is a hallmark of cancer. It is increasingly recognized that selected tumors are dependent on oxidative phosphorylation (OXPHOS). However, the role of OXPHOS in TNBC is not well understood. We performed RNA sequencing in pre-treatment biopsies from 43 patients with operable triple negative breast cancer (TNBC) who received sequential taxane- and anthracycline-based neoadjuvant chemotherapy. At a median follow-up of 63 months, 14 patients recurred and 12 patients died. At a false discovery rate of 0.05, 33 genes were differentially expressed between the patients who did and did not have a subsequent recurrence. Ingenuity pathway analysis demonstrated that one of the top canonical pathways that differed was higher expression of oxidative phosphorylation signature (p=5.89E-0.7). The patients who recurred had significantly higher levels of mitochondrial genes: MT-ND1 (adjusted p or FDR-BH; q=0.007); MT-ND5 (q=0.03) and MT-ND4 (q=0.04). Further, 21 genes were differentially expressed between patients based on survival, including MT-ND5 (q=0.001); MT-ND4 (q=0.005), MT-ND4L (q=0.015), MT-ND6 (q=0.018), and MT-ATP6 (P=0.03). Top canonical pathway that was differentially expressed based on survival was oxidative phosphorylation (p=9.98E-10). We therefore sought to determine the efficacy of IACS-10759, a novel inhibitor of OXPHOS, in 10 different TNBC patient-derived xenografts representing different gene expression based Lehmann TNBC subtypes. Growth inhibition was observed in multiple subtypes, with regression in one basal-like 1(BL1) 1 model, and stabilization of growth in multiple BL1 and immunomodulatory expression subtypes. Taken together, our data suggests that high OXPHOS is associated with higher recurrence and lower survival. OXPHOS is a promising target in several TNBC subtypes. A Phase I trial of IACS-10759, a potent inhibitor of complex I of oxidative phosphorylation, in leukemia is ongoing and planned in TNBC and other solid tumors. Citation Format: Funda Meric-Bernstam, Kurt Evans, Xiaofeng Zheng, Xiaoping Su, Erkan Yuca, Stephen Scott, Argun Akcakanat, Naoto Ueno, Bora Lim, Jennifer Litton, Vicente Valero, Fraser Symmans, Gabriel Hortobagyi, Charles Perou, Debu Tripathy, Guilio Draetta, Joe Marszalek, Ana Maria Gonzalez-Angulo, Stacy Moulder. Oxidative phosphorylation as a target in triple negative breast cancer therapy [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 4970. doi:10.1158/1538-7445.AM2017-4970