Monika Vishnoi 1, Nikki Haowen Liu 1, Wei Yin 1, Debasish Boral 1, Antonio Scamardo 2, David Hong 2, Dario Marchetti 1,✉
Posted: June 19, 2019
Abstract
Triple‐negative breast cancer (TNBC) liver metastasis is associated with poor prognosis and low patient survival. It occurs when tumor cells disseminate from primary tumors, circulate in blood/lymph [circulating tumor cells (CTCs)], and acquire distinct characteristics during disease progression toward the metastatic phenotype. The purpose of this study was to decipher the genomic/transcriptomic properties of TNBC liver metastasis and its recurrence for potential therapeutic targeting. We employed a negative depletion strategy to isolate and interrogate CTCs from the blood of patients with TNBC, and to establish sequential generations of CTC‐derived xenografts (CDXs) through injection of patient CTCs in immunodeficient mice. The isolation and validation of CDX‐derived cell populations [analyses of CTCs were paired with bone marrow‐resident cells (BMRTCs) and liver tissue cells obtained from the same animal] were performed by multiparametric flow cytometry, immune phenotyping, and genomic sequencing of putative CTCs. Comprehensive characterization of gene expression arrays from sequentially generated CDX‐derived cell populations, online gene expression arrays, and TCGA databases were employed to discover a CTC‐driven, liver metastasis‐associated TNBC signature. We discovered a distinct transcriptomic signature of TNBC patient‐isolated CTCs from primary TNBCs, which was consistent throughout sequential CDX modeling. We established a novel TNBC liver metastasis‐specific CDX model that selectively recapitulates CTC biology for four sequential generations of mice. The evaluation of online databases and CDX‐derived populations revealed 597 genes specific to the TNBC liver metastasis signatures. Further investigation of the TNBC liver metastasis signature predicted 16 hub genes, 6 biomarkers with clinically available drugs, and 22 survival genes. The sequential interrogation of CDX‐CTCs is an innovative liquid biopsy‐based approach for the discovery of organ metastasis‐specific signatures of CTCs. This represents the first step for mechanistic and analytical validation in their application as prognostic indicators and therapeutic targets. Targeting CTC drug candidate biomarkers along with combination therapy can improve the clinical outcome of TNBC patients in general and recurrence of liver metastasis in particular.
NeoBiotechnologies’ products were used in this study:
For immunohistochemistry, primary antibodies were obtained from the following sources: Anti-human cocktail of gross cystic disease fluid protein-15 (GCDFP-15) + mammaglobin (#906H-08; 1 : 200) was obtained from Sigma-Aldrich (St. Louis, MO, USA); CD44 (#960-MSM2-P0; 1 : 200) and Pan-CK (#MSM2-371-P0; 1 : 200) antibodies from NeoBiotechnologies (Union City, CA, USA); and Alexa Fluor-conjugated anti-mouse, anti-rabbit secondary IgG antibodies (1 : 500) from Cell Signaling Technology.
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CD44 / HCAM (Cancer Stem Cell Marker) Antibody [HCAM/918]
$249.00 – $539.00Catalog Number:960-MSM2Gene:CD44Application:Flow Cytometry, Functional Studies, Immunofluorescence, Immunohistochemistry, Western BlotReactivity:Baboon, Green Monkey, HumanHost:MouseIsotype:IgG2a
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Cytokeratin, pan (Epithelial Marker) Antibody [AE-1/AE-3]
$249.00 – $539.00Catalog Number:MSM2-371Gene:KRT77Application:Flow Cytometry, Immunofluorescence, Immunohistochemistry, Western BlotReactivity:HumanHost:MouseIsotype:IgG1
Keywords: bone marrow‐resident tumor cells, circulating tumor cells, CTC‐derived xenografts, Genomics/transcriptomic analyses of CDX‐derived CTC populations, liver metastasis, triple‐negative breast cancer
Publication History:
Mol Oncol. 2019 Jun 19;13(9):1913–1926. doi: 10.1002/1878-0261.12533
