Cell Reports (Feb 2019)
Pre-existing Functional Heterogeneity of Tumorigenic Compartment as the Origin of Chemoresistance in Pancreatic Tumors
Abstract
Summary: Adaptive drug-resistance mechanisms allow human tumors to evade treatment through selection and expansion of treatment-resistant clones. Here, studying clonal evolution of tumor cells derived from human pancreatic tumors, we demonstrate that in vitro cultures and in vivo tumors are maintained by a common set of tumorigenic cells that can be used to establish clonal replica tumors (CRTs), large cohorts of animals bearing human tumors with identical clonal composition. Using CRTs to conduct quantitative assessments of adaptive responses to therapeutics, we uncovered a multitude of functionally heterogeneous subpopulations of cells with differential degrees of drug sensitivity. High-throughput isolation and deep characterization of unique clonal lineages showed genetic and transcriptomic diversity underlying functionally diverse subpopulations. Molecular annotation of gemcitabine-naive clonal lineages with distinct responses to treatment in the context of CRTs generated signatures that can predict the response to chemotherapy, representing a potential biomarker to stratify patients with pancreatic cancer. : High-complexity lineage tracing shows that tumors growing in different environments are maintained by a common set of tumorigenic cells that enables the generation of clonal replica tumors (CRTs). Applying CRTs, Seth et al. unmask functional heterogeneity in response to therapeutics and identify a signature that predicts chemoresistance in pancreatic cancer. Keywords: tumor heterogeneity, functional heterogeneity, lineage tracing, clonal dynamics, clonal isolation, pancreatic cancer, drug resistance, subclonal gene signature, prognostic stratification