Abstract 4953: Metabolic targeting of chemoresistance perturbs clonal complexity in pancreatic cancer

Abstract

Abstract A major barrier to achieving durable remission and definitive cure in oncology patients is the emergence of tumor resistance, a common outcome of different disease types independent from the therapeutic approach undertaken. Patients with pancreatic ductal adenocarcinoma (PDAC) continue to have a poor prognosis despite concerted efforts to advance new drugs to the clinic. One reason for this, in PDAC and other tumors, is that tumors are constantly adapting and evolving in response to external perturbations. To better investigate tumor evolution in response to therapy we developed a new clonal tracking platform that enables the in vivo study of long term self-renewing compartments and the generation of cohorts of patient-derived xenografts in which tumors are virtually identical and maintained by the same clones (clonal replica tumors), representing a unique tool to address fundamental questions about clonal dynamics in response to pharmacological treatment. Using this novel approach we demonstrate that standard of care in pancreatic cancer, despite inducing tumor regression, has minimal effect on the clonal composition of tumors that eventually relapse. Transcriptomic and metabolic characterization of residual tumor cells in patient derived xenograft models as well as in patients after chemoradiation shows that resistant cells that contribute to tumor relapse are metabolically rewired to upregulate mitochondrial respiration (OXPHOS). Combining a novel inhibitor of oxidative phosphorylation (IACS-010759), developed at the MD Anderson Institute for Applied Cancer Science and currently in phase I clinical trial in relapsed/refractory acute myelogenous leukemia and advanced solid tumors, with standard of care drugs drastically reduces tumor clonal complexity, underscoring the promise of inhibiting mitochondrial respiration as a new therapeutic strategy to prolong patient survival by eradicating resistant clones that survive chemoradiation. Citation Format: Sara Loponte, Denise Corti, Sahil Seth, Edoardo Del Poggetto, I-Lin Ho, Chieh-Yuan Li, Shan Jiang, Joseph R. Marszalek, Maria Emilia Di Francesco, Giannicola Genovese, Giulio Draetta, Alessandro Carugo, Andrea Viale. Metabolic targeting of chemoresistance perturbs clonal complexity in pancreatic cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 4953.