Abstract 429: Increased chromatin heterogeneity in circulating tumor cells (CTCs) is associated with high levels of HER2 expression in metastatic breast cancer (MBC)

Abstract

Abstract Introduction: Molecular and genomic characterization of CTCs may help to understand MBC prognosis and predict treatment benefit. We previously reported that overexpression of HER2 in CTCs is associated with detection of clusters, more aggressive clinical features and prognosis in MBC (2018 AACR #5195). Herein, we report a new finding that a widespread variation on chromatin distribution in CTCs is associated with HER2 expression in MBC which may indicate more aggressive tumor. Methods: Whole blood sample (7.5ml/each) was collected from stage III/IV BCa patients before therapy. CTC enumeration were performed in FDA approved CELLTRACKS ANALYZERII® System (Menarini) by targeting the Epithelial Cell Adhesion Molecule antigen for capturing CTCs. After confirming CTCs were positive by CellSearch system, live CTCs enrichment was performed by using Parsortix system (ANGLE) utilizes microfluidic based 10μm separation cassettes. The captured CTCs were stained by Anti-CK-PE (specific for epithelial cells), DAPI (for nucleus), anti-CD45-APC (specific for leukocytes), and anti-HER2-FITC. CTCs chromatin packing density was scanned by Partial Wave Spectroscopic (PWS) microscopy which is a label-free spectroscopic microscopy method that resolves structures in cells and quantify the cell nucleus heterogeneity of chromatin packing density scaling between 20-350 nm, or from the kb-pair to 10 Mb-pair range. For each nuclei, the nanoscale heterogeneity of chromatin packing was analyzed as nuclear statistical parameter standard deviation Σ (sigma, RMS). Kruskal-Wallis test was used for statistics. Results: We identified 400 CTCs by CellSearch system, including 115 HER2+ CTCs and 285 HER2- CTCs. The live CTCs were sorted by Parsortix system and were proceeded with multiple staining and scanning by PWS microscopy. CTCs were classified based on morphology and correct phenotype as CK+, DAPI+ and CD45-. There were 97 acquired nuclei that were scanned and evaluated successfully, including 17 HER2+ CTCs, 12 HER2- CTCs and 80 non-CTC cells. According to the images, stronger nanoscopic variations at each pixel in internal structure represents higher chromatin distribution heterogeneity quantified by RMS. The average RMS was 0.05125 in CTC cells which is significantly higher than the non-CTC population (RMS=0.0381, p<0.01). Moreover, the HER2+ CTCs demonstrated the highest nuclear sigma (RMS=0.05366) among all the subgroups when compared to HER2- CTCs (RMS=0.04546, p<0.01). Conclusion: This is the first report of chromatin heterogeneity in CTCs, and the association between HER2 expression and high variations of chromatin distribution in MBC patients. This novel property of CTCs describing nanoscale heterogeneity of chromatin packing requires further evaluation and validation but, it may offer a novel dimension in the understanding of the metastatic process. Citation Format: Qiang Zhang, Lorenzo Gerratana, Ami N. Shah, Andrew Adam Davis, Lisa Flaum, Xiang Zhou, Youbin Zhang, Vadim Backman, Amir Behdad, Firas Wehbe, William Gradishar, Leonidas Platanias, Massimo Cristofanilli. Increased chromatin heterogeneity in circulating tumor cells (CTCs) is associated with high levels of HER2 expression in metastatic breast cancer (MBC) [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 429.