Abstract

Abstract BACKGROUND: The presence of disseminated tumor cells (DTCs) in bone marrow of early breast cancer (EBC) patients is a strong predictor of poor prognosis. We assessed heterogeneity in copy number, PIK3CA mutation, and gene expression in DTCs to shed light on the molecular biology of these cells. METHODS: We isolated EPCAM-positive DTCs in 71 EBC patients using immunomagnetic enrichment and fluorescence-activated cell sorting (IE/FACS). Isolated DTCs, along with corresponding primary tumors (n=16), were subjected to genome-wide copy number profiling (n=47) by array comparative genomic hybridization, and mutation screening of the PIK3CA gene (n=53) by Sanger sequencing. The expression of 64 cancer-related genes in DTCs was analyzed by microfluidic-based multiplexed RT-QPCR (n=30). DTC expression profiles were compared with available gene expression data from circulating tumor cells (CTCs) of metastatic breast cancer patients. RESULTS: Copy number profiles of DTCs were less aberrant and distinct from their corresponding primary tumors. PIK3CA mutations detected in 26% of DTCs were mutually exclusive to those found in matched primary tumors. Expression profiles of DTCs were distinguishable from marrow leukocytes, and displayed up-regulation of oncogenes MYC and CCNE1. Unsupervised hierarchical clustering analysis revealed two subtypes of DTCs: (1) luminal with dual epithelial-mesenchymal properties (high ESR1 and VIM/CAV1 expression), and (2) basal-like with proliferative/stem cell-like phenotype (low ESR1 and high MKI67/ALDH1A1 expression). DTCs possessed gene expression signatures that were unique from those of CTCs. ALDH1A1, CAV1 and VIM were up-regulated in DTCs relative to CTCs. ESR1/ER and ERBB2/HER2 status in DTCs vs. corresponding primary tumors showed high discordance (40% and 43%, respectively), suggesting shift in biomarker status in micrometastatic cells in the bone marrow. CONCLUSIONS: We demonstrate the feasibility of isolation and comprehensive molecular characterization of DTCs from bone marrow of EBC patients. Comparative genomic analysis suggests that DTCs disseminate early and acquire genomic aberrations independently of the primary tumor. Expression profiling revealed two distinct subpopulations of DTCs. Validation in larger cohorts is needed to confirm the presence of these molecular subtypes and to evaluate their biological and clinical significance. Citation Format: Mark Jesus M. Magbanua, Hope Rugo, Louai Hauranieh, Ritu Roy, Janet Scott, Jen Chieh Lee, Feng Hsiao, Eduardo Sosa, Denise Wolf, Laura van't Veer, Laura Esserman, John Park. Genomic and expression profiling reveals molecular heterogeneity of disseminated tumor cells in early breast 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 5578.

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