Abstract 2914: Molecular characterization with single-cell resolution of CTCs and FFPE specimens from the same lung adenocarcinoma patients reveals the extent of intra-tumor heterogeneity

Abstract

Abstract Introduction Intra-tumor heterogeneity can hide genomic and genetic features, which may be key driver of disease progression. Routinely, only one biological specimen per patient is generally analyzed, which may only partially represents the genetics of the tumor. Here we report a multi-approach analysis of Circulating Tumor Cells (CTCs) and formalin-fixed paraffin-embedded (FFPE) tumor tissue-derived cells (TCs) obtained from the same patients, to investigate the underlying genetic heterogeneity. Methods Peripheral blood (PB) and FFPE tumor tissue were collected from two advanced lung adenocarcinoma patients, treated with cisplatin-pemetrexed and carboplatin-pemetrexed respectively as first line therapy. The first patient was previously diagnosed an ALK-traslocation and treated with an ALK-inhibitor. PB was enriched with either an EpCAM-based or EpCAM-independent method: the cell output of the latter was stained with Cytokeratin-PE, CD45-APC and DAPI. Matched FFPE sections were obtained from pleural effusion cell blocks for the first patient or from primary tumor tissue for the second one; after dissociation, cells were stained with Vimentin-APC, Keratin-FITC and DAPI. The DEPArray™ platform was used to detect and collect pure single CTCs or TCs, along with WBCs or stromal cells as controls. Whole genome amplified DNA of single CTCs and TCs was used to profile genome-wide copy-number aberrations (CNAs) using the Ampli1™ LowPass kit; single nucleotide variants were analyzed on CTCs WGA products and on pools of TCs using Ampli1™ CHP custom panel and DEPArray™ OncoSeek panel respectively. Results No clinically significant variants were detected in CTCs and FFPE samples; however the copy-number profiles of single TCs and CTCs revealed an overabundance of gains and losses, confirming the aberrant nature of tumor cells. In the first patient, all single cells showed a pattern of shared alterations, with a common amplification of the genome region comprising MYC gene (also confirmed by depth-of-coverage in targeted panel). A hierarchical unsupervised clustering clearly separated WBCs, from the group of TCs and CTCs, characterized by some emerging clones and low inter-cell heterogeneity. The analysis of the copy-number profiles of cells from the second patient showed an opposite situation; unsupervised clustering of low-pass profiles highlighted an independent group formed by single TCs clearly distinct from the highly heterogeneous cluster formed by CTCs. Conclusions The precision granted by analysis of pure cells derived from multiple specimens from the same patient, together with the combination of low-pass whole-genome sequencing and targeted sequencing, reveals unexpected genetic similarities and diversities, and provides fundamental information to understand intra-tumor heterogeneity. Citation Format: Mario Terracciano, Francesco Gelsomino, Francesco Bacchi, Francesca Fontana, Claudio Forcato, Alberto Ferrarini, Michelangelo Fiorentino, Valentina Del Monaco, Giulio Bassi, Chiara Mangano, Chiara Bolognesi, Paola Tononi, Genny Buson, Gianni Medoro, Nicolò Manaresi, Michele Tognetto, Andrea Ardizzoni. Molecular characterization with single-cell resolution of CTCs and FFPE specimens from the same lung adenocarcinoma patients reveals the extent of intra-tumor heterogeneity [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 2914. doi:10.1158/1538-7445.AM2017-2914