Antigen-agnostic Microfluidics-based Circulating Tumor Cell Enrichment and Downstream Molecular Characterization

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2020 Oct 23

PMID 33095819

Citations 13

Authors

Evan N Cohen

Gitanjali Jayachandran

Max R Hardy

Ananya M Venkata Subramanian

Xiangtian Meng

James M Reuben

Affiliations

Soon will be listed here.

Abstract

Circulating tumor cells (CTC) isolated from the peripheral blood of cancer patients by a minimally invasive procedure provide surrogate markers of the tumor that can be repeatedly sampled. However, the selection and enumeration of CTCs by traditional methods based on surface proteins like EPCAM may not detect CTCs with a mesenchymal phenotype. Here, we employed an antibody-agnostic platform, the Parsortix® PR1 system, which enriches CTCs based on cell size and membrane deformability. We evaluated the linearity, sensitivity, and specificity of the Parsortix PR1 system in tandem with 3 downstream molecular characterization techniques using healthy donor blood spiked with cultured cell lines. Signal amplification of mRNA using a QuantiGene 25-gene assay was able to quantitate multiple epithelial genes, including CDH1, EGFR, ERBB2, KRT18, and MUC1, from high numbers of spiked cells and was able to detect KRT18 when only 50 MCF-7 or SUM190 cells were spiked into healthy donor blood. However, target amplification of mRNA by quantitative polymerase chain reaction (qPCR) showed better sensitivity; qPCR without pre-amplification was able to detect CTC-related genes in Parsortix PR1-enriched cells when as few as 5 SKBR3 cells were spiked into blood. Finally, the HTG EdgeSeq nuclease protection assay was able to profile mRNA expression of over 2,560 cancer-related genes from Parsortix PR1 enriched cells, showing enrichment in cancer signaling pathways and ERBB2, KRT19, and KRT7. Overall, the Parsortix PR1 platform may be amenable to transition into routine clinical workflows.

Citing Articles

Combining rVAR2 and Anti-EpCAM to Increase the Capture Efficiency of Non-Small-Cell Lung Cancer Cell Lines in the Flow Enrichment Target Capture Halbach (FETCH) Magnetic Separation System.

He S, Liu P, Wu Y, Agerbaek M, Salanti A, Terstappen L Int J Mol Sci. 2024; 25(18).

PMID: 39337304 PMC: 11432156. DOI: 10.3390/ijms25189816.

A FACS-based novel isolation technique identifies heterogeneous CTCs in oral squamous cell carcinoma.

Chauhan A, Pal A, Sachdeva M, Boora G, Parsana M, Bakshi J Front Oncol. 2024; 14:1269211.

PMID: 38469233 PMC: 10925612. DOI: 10.3389/fonc.2024.1269211.

A Potential "Anti-Warburg Effect" in Circulating Tumor Cell-mediated Metastatic Progression?.

Jiang Z, He J, Zhang B, Wang L, Long C, Zhao B Aging Dis. 2024; .

PMID: 38300633 PMC: 11745448. DOI: 10.14336/AD.2023.1227.

Microfluidic Isolation of Disseminated Tumor Cells from the Bone Marrow of Breast Cancer Patients.

Volmer L, Onder C, Volz B, Singh A, Brucker S, Engler T Int J Mol Sci. 2023; 24(18).

PMID: 37762233 PMC: 10531360. DOI: 10.3390/ijms241813930.

Current and emerging applications of liquid biopsy in pan-cancer.

Wang W, He Y, Yang F, Chen K Transl Oncol. 2023; 34:101720.

PMID: 37315508 PMC: 10302532. DOI: 10.1016/j.tranon.2023.101720.

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