Isolating highly enriched populations of circulating epithelial cells and other rare cells from blood using a magnetic sweeper device

The enumeration of rare circulating epithelial cells (CEpCs) in the peripheral blood of metastatic cancer patients has shown promise for improved cancer prognosis. Moving beyond enumeration, molecular analysis of CEpCs may provide candidate surrogate endpoints to diagnose, treat, and monitor maligna...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2009-03, Vol.106 (10), p.3970-3975
Hauptverfasser:	Talasaz, AmirAli H, Powell, Ashley A, Huber, David E, Berbee, James G, Roh, Kyung-Ho, Yu, Wong, Xiao, Wenzhong, Davis, Mark M, Pease, R. Fabian, Mindrinos, Michael N, Jeffrey, Stefanie S, Davis, Ronald W
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Schlagworte:	Biochemistry Biological Sciences Blood Blood cells Blood Cells - cytology Breast cancer Breast Neoplasms - pathology Cancer Cell Line, Tumor Cell Separation - instrumentation Cells Computer Simulation Epithelial cells Epithelial Cells - cytology Female Gene expression Gene Expression Regulation HLA-A2 Antigen - immunology Humans Magnetic fields Magnetics - instrumentation Magnets Models, Immunological Molecules RNA T lymphocytes Tumors
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creator	Talasaz, AmirAli H Powell, Ashley A Huber, David E Berbee, James G Roh, Kyung-Ho Yu, Wong Xiao, Wenzhong Davis, Mark M Pease, R. Fabian Mindrinos, Michael N Jeffrey, Stefanie S Davis, Ronald W
description	The enumeration of rare circulating epithelial cells (CEpCs) in the peripheral blood of metastatic cancer patients has shown promise for improved cancer prognosis. Moving beyond enumeration, molecular analysis of CEpCs may provide candidate surrogate endpoints to diagnose, treat, and monitor malignancy directly from the blood samples. Thorough molecular analysis of CEpCs requires the development of new sample preparation methods that yield easily accessible and purified CEpCs for downstream biochemical assays. Here, we describe a new immunomagnetic cell separator, the MagSweeper, which gently enriches target cells and eliminates cells that are not bound to magnetic particles. The isolated cells are easily accessible and can be extracted individually based on their physical characteristics to deplete any cells nonspecifically bound to beads. We have shown that our device can process 9 mL of blood per hour and captures >50% of CEpCs as measured in spiking experiments. We have shown that the separation process does not perturb the gene expression of rare cells. To determine the efficiency of our platform in isolating CEpCs from patients, we have isolated CEpCs from all 47 tubes of 9-mL blood samples collected from 17 women with metastatic breast cancer. In contrast, we could not find any circulating epithelial cells in samples from 5 healthy donors. The isolated CEpCs are all stored individually for further molecular analysis.
doi_str_mv	10.1073/pnas.0813188106
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Fabian</creatorcontrib><creatorcontrib>Mindrinos, Michael N</creatorcontrib><creatorcontrib>Jeffrey, Stefanie S</creatorcontrib><creatorcontrib>Davis, Ronald W</creatorcontrib><title>Isolating highly enriched populations of circulating epithelial cells and other rare cells from blood using a magnetic sweeper device</title><title>Proceedings of the National Academy of Sciences - PNAS</title><addtitle>Proc Natl Acad Sci U S A</addtitle><description>The enumeration of rare circulating epithelial cells (CEpCs) in the peripheral blood of metastatic cancer patients has shown promise for improved cancer prognosis. Moving beyond enumeration, molecular analysis of CEpCs may provide candidate surrogate endpoints to diagnose, treat, and monitor malignancy directly from the blood samples. Thorough molecular analysis of CEpCs requires the development of new sample preparation methods that yield easily accessible and purified CEpCs for downstream biochemical assays. 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Thorough molecular analysis of CEpCs requires the development of new sample preparation methods that yield easily accessible and purified CEpCs for downstream biochemical assays. Here, we describe a new immunomagnetic cell separator, the MagSweeper, which gently enriches target cells and eliminates cells that are not bound to magnetic particles. The isolated cells are easily accessible and can be extracted individually based on their physical characteristics to deplete any cells nonspecifically bound to beads. We have shown that our device can process 9 mL of blood per hour and captures >50% of CEpCs as measured in spiking experiments. We have shown that the separation process does not perturb the gene expression of rare cells. To determine the efficiency of our platform in isolating CEpCs from patients, we have isolated CEpCs from all 47 tubes of 9-mL blood samples collected from 17 women with metastatic breast cancer. 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subjects	Biochemistry Biological Sciences Blood Blood cells Blood Cells - cytology Breast cancer Breast Neoplasms - pathology Cancer Cell Line, Tumor Cell Separation - instrumentation Cells Computer Simulation Epithelial cells Epithelial Cells - cytology Female Gene expression Gene Expression Regulation HLA-A2 Antigen - immunology Humans Magnetic fields Magnetics - instrumentation Magnets Models, Immunological Molecules RNA T lymphocytes Tumors
title	Isolating highly enriched populations of circulating epithelial cells and other rare cells from blood using a magnetic sweeper device
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