An integrated enrichment system to facilitate isolation and molecular characterization of single cancer cells from whole blood

Yu, Liping; Sa, Silin; Dulmage, Keely; Bhagwat, Neha; Yee, Stephanie S.; Sen, Moen; Pletcher, Charles H.; Moore, Jonni S.; Saksena, Suraj; Dixon, Eric P.

doi:10.1002/cyto.a.23599

Cited by 15 publications

(10 citation statements)

References 28 publications

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“…A description of several of these EpCAM independent isolation methods can be found in this issue (39)(40)(41)(42)(43)(44)(45). A description of several of these EpCAM independent isolation methods can be found in this issue (39)(40)(41)(42)(43)(44)(45).…”

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confidence: 99%

“…Addition of fluorescently labeled antibodies recognizing treatment targets to the staining cocktail is relatively easy, although, one is limited by the number of fluorochromes that can be determined simultaneously. Tools to isolate the single cells from CTC enriched cell suspensions are available (39,41,42,56,57). Probing for gene aberrations of CTC by fluorescence in situ hybridization has also been demonstrated and again reiterated their extensive intra-and inter-patient heterogeneity (52)(53)(54)(55).…”

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confidence: 99%

“…With the introduction of new methods for CTC isolation many have argued that the lack of detection of CTC in cancer patients with the CellSearch system may be contributed to the CTC definition used as it detects only cells expressing both EpCAM and Cytokeratin. A description of several of these EpCAM independent isolation methods can be found in this issue (39)(40)(41)(42)(43)(44)(45). However, for these different CTC phenotypes, clinical confirmation of the correlation of CTC to patient survival will be necessary.…”

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confidence: 99%

“…For extensive interrogation of the CTC the individual cells will have to be isolated and for molecular characterization the nucleic acids will have to be amplified. Tools to isolate the single cells from CTC enriched cell suspensions are available (39,41,42,56,57). The steps needed to get from blood to single CTC surely will be associated with cell losses and the different steps will have to be optimized to minimize these losses.…”

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confidence: 99%

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CTC Technologies and Tools

Coumans

Dalum

Terstappen³

2018

Cytometry Pt A

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CANCER cells can enter the blood stream. Some of these circulating tumor cells (CTC) extravasate and form distant metastases which ultimately lead to the death of the patient. CTC have been observed quite some time ago (1-3). The major difficulty for the identification of CTC is their extremely low frequency (~1/ml in metastatic patients). When no CTC were detected in a tube of blood of a patient with metastases one always wonders whether they were not present or whether they were missed by the detection technology. Another hurdle is the extensive heterogeneity of the physical and immunological appearance of CTC within and between patients.Tumor cell lines play a pivotal role in both informing technology developers of the probable physical and immunological properties of CTC, as well as in the determination of the analytical accuracy, reproducibility, and linearity of any developed technology. However, tumor cell lines are not CTC. Excellent performance on tumor cell lines does not warrant that (1) the developed technology will actually identify CTC in blood samples of cancer patients nor that (2) these CTC relate to clinical outcome nor that (3) information relevant for treatment can be extracted.At the start of the trajectory toward the FDA cleared CellSearch system very little was known about the CTC frequency and their physical and immunological appearance. CTC enrichment in 10 ml of blood was performed by manual immunomagnetic enrichment targeting EpCAM using the GA73.3 antibody. The enriched cell suspension was fluorescently labeled with the PE-labeled CAM5.2 antibody recognizing cytokeratins 7 and 8, a PerCP-labeled antibody recognizing CD45 and a nucleic acid dye that could be measured in the FITC channel of a flowcytometer. Using this approach, it was first shown that CTC indeed could be detected in 10 ml blood of cancer patients with metastatic disease and at a lesser frequency in patients with no detectable metastasis while few "CTC" were detected in healthy controls (4-8). These results were sufficiently encouraging to further develop the CTC technology and design and conduct clinical studies to explore the clinical utility of CTC. The commercial CellSearch system that was ultimately developed included (1) a blood collection tube to preserve the fragile CTC for a period of up to 96 h, (2) an automated sample preparation system in which (3) the EpCAM antibody was replaced by VU1D9, (4) CAM5.2 cytokeratin antibody was replaced by C11 and A.53B/A2 to increase the range of cytokeratins, (5) the CD45-PerCP was switched to CD45-APC, (6) the nucleic acid dye was switched to DAPI, and (7) the flow cytometer replaced by a semi-automated fluorescence microscope with dedicated software to present CTC candidates to a reviewer. Thanks to an excellent team of reagent developers and engineers the system was reliable and provided accurate results over a large range of spiked tumor cells in blood with a high sensitivity and specificity. Whereas few "CTC" were detected in healthy donors and patients with benign disease...

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confidence: 99%

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confidence: 99%

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confidence: 99%

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confidence: 99%

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CTC Technologies and Tools

Coumans

Dalum

Terstappen³

2018

Cytometry Pt A

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“…Other systems are available to assess single cells, for example a self-sufficient micro-droplet generation system that facilitates encapsulation, chemical stimulation, and microscopic analysis of viable cells inside droplets [35]. However, many cells are used and it has not been shown that such systems work for rare cell populations like CTC single cell isolation technologies suitable for CTC analysis, including viable cells do exist like DEPArray™ [36], ALS cellselector™ [37] or FACS sorting [38] but no successful CTC cultures have been published yet. A workflow to successfully obtain viable CTC using self-sorting microwells is presented here.…”

Section: Discussionmentioning

confidence: 99%

Self-Seeding Microwells to Isolate and Assess the Viability of Single Circulating Tumor Cells

Andree

Abali

Oomens³

et al. 2019

IJMS

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The availability of viable tumor cells could significantly improve the disease management of cancer patients. Here we developed and evaluated a method using self-seeding microwells to obtain single circulating tumor cells (CTC) and assess their potential to expand. Conditions were optimized using cells from the breast cancer cell line MCF-7 and blood from healthy volunteers collected in EDTA blood collection tubes. 43% of the MCF-7 cells (nucleus+, Ethidium homodimer-1-, Calcein AM+, α-EpCAM+, α-CD45-) spiked into 7.5 mL of blood could be recovered with 67% viability and these could be further expanded. The same procedure tested in metastatic breast and prostate cancer patients resulted in a CTC recovery of only 0–5% as compared with CTC counts obtained with the CellSearch® system. Viability of the detected CTC ranged from 0–36%. Cell losses could be mainly contributed to the smaller size and greater flexibility of CTC as compared to cultured cells from cell lines and loss during leukocyte depletion prior to cell seeding. Although CTC losses can be reduced by fixation, to obtain viable CTC no fixatives can be used and pore size in the bottom of microwells will need to be reduced, filtration conditions adapted and pre-enrichment improved to reduce CTC losses.

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Guidelines for the use of flow cytometry and cell sorting in immunological studies (second edition)

et al. 2019

Self Cite

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These guidelines are a consensus work of a considerable number of members of the immunology and flow cytometry community. They provide the theory and key practical aspects of flow cytometry enabling immunologists to avoid the common errors that often undermine immunological data. Notably, there are comprehensive sections of all major immune cell types with helpful Tables detailing phenotypes in murine and human cells. The latest flow cytometry techniques and applications are also described, featuring examples of the data that can be generated and, importantly, how the data can be analysed. Furthermore, there are sections detailing tips, tricks and pitfalls to avoid, all written and peer‐reviewed by leading experts in the field, making this an essential research companion.

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An integrated enrichment system to facilitate isolation and molecular characterization of single cancer cells from whole blood

Cited by 15 publications

References 28 publications

CTC Technologies and Tools

CTC Technologies and Tools

Self-Seeding Microwells to Isolate and Assess the Viability of Single Circulating Tumor Cells

Guidelines for the use of flow cytometry and cell sorting in immunological studies (second edition)

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