Literature DB >> 22143878

Immunocapture of prostate cancer cells by use of anti-PSMA antibodies in microdevices.

Steven M Santana1, He Liu, Neil H Bander, Jason P Gleghorn, Brian J Kirby.   

Abstract

Patients suffering from cancer can shed tumor cells into the bloodstream, leading to one of the most important mechanisms of metastasis. As such, the capture of these cells is of great interest. Circulating tumor cells are typically extracted from circulation through positive selection with the epithelial cell-adhesion molecule (EpCAM), leading to currently unknown biases when cells are undergoing epithelial-to-mesenchymal transition. For prostate cancer, prostate-specific membrane antigen (PSMA) presents a compelling target for immunocapture, as PSMA levels increase in higher-grade cancers and metastatic disease and are specific to the prostate epithelium. This study uses monoclonal antibodies J591 and J415-antibodies that are highly specific for intact extracellular domains of PSMA on live cells-in microfluidic devices for the capture of LNCaPs, a PSMA-expressing immortalized prostate cancer cell line, over a range of concentrations and shear stresses relevant to immunocapture. Our results show that J591 outperforms J415 and a mix of the two for prostate cancer capture, and that capture performance saturates following incubation with antibody concentrations of 10 micrograms per milliliter.

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Year:  2012        PMID: 22143878      PMCID: PMC4074911          DOI: 10.1007/s10544-011-9616-5

Source DB:  PubMed          Journal:  Biomed Microdevices        ISSN: 1387-2176            Impact factor:   2.838


  52 in total

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2.  Heterogeneity of prostate-specific membrane antigen (PSMA) expression in prostate carcinoma with distant metastasis.

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Journal:  Pathol Oncol Res       Date:  2008-09-18       Impact factor: 3.201

3.  Monoclonal antibodies to a new antigenic marker in epithelial prostatic cells and serum of prostatic cancer patients.

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4.  Circulating tumor cells predict survival in patients with metastatic prostate cancer.

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5.  Isolation and characterization of circulating tumor cells from patients with localized and metastatic prostate cancer.

Authors:  Shannon L Stott; Richard J Lee; Sunitha Nagrath; Min Yu; David T Miyamoto; Lindsey Ulkus; Elizabeth J Inserra; Matthew Ulman; Simeon Springer; Zev Nakamura; Alessandra L Moore; Dina I Tsukrov; Maria E Kempner; Douglas M Dahl; Chin-Lee Wu; A John Iafrate; Matthew R Smith; Ronald G Tompkins; Lecia V Sequist; Mehmet Toner; Daniel A Haber; Shyamala Maheswaran
Journal:  Sci Transl Med       Date:  2010-03-31       Impact factor: 17.956

6.  Capture of circulating tumor cells from whole blood of prostate cancer patients using geometrically enhanced differential immunocapture (GEDI) and a prostate-specific antibody.

Authors:  Jason P Gleghorn; Erica D Pratt; Denise Denning; He Liu; Neil H Bander; Scott T Tagawa; David M Nanus; Paraskevi A Giannakakou; Brian J Kirby
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Review 7.  Circulating tumour cells in cancer patients: challenges and perspectives.

Authors:  Klaus Pantel; Catherine Alix-Panabières
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Authors:  Jeroen R Mesters; Cyril Barinka; Weixing Li; Takashi Tsukamoto; Pavel Majer; Barbara S Slusher; Jan Konvalinka; Rolf Hilgenfeld
Journal:  EMBO J       Date:  2006-02-09       Impact factor: 11.598

10.  Circulating tumor cells predict survival benefit from treatment in metastatic castration-resistant prostate cancer.

Authors:  Johann S de Bono; Howard I Scher; R Bruce Montgomery; Christopher Parker; M Craig Miller; Henk Tissing; Gerald V Doyle; Leon W W M Terstappen; Kenneth J Pienta; Derek Raghavan
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  14 in total

1.  Isolation of breast cancer and gastric cancer circulating tumor cells by use of an anti HER2-based microfluidic device.

Authors:  Giuseppe Galletti; Matthew S Sung; Linda T Vahdat; Manish A Shah; Steven M Santana; Giuseppe Altavilla; Brian J Kirby; Paraskevi Giannakakou
Journal:  Lab Chip       Date:  2013-11-07       Impact factor: 6.799

2.  Enrichment of prostate cancer cells from blood cells with a hybrid dielectrophoresis and immunocapture microfluidic system.

Authors:  Chao Huang; He Liu; Neil H Bander; Brian J Kirby
Journal:  Biomed Microdevices       Date:  2013-12       Impact factor: 2.838

3.  Parametric control of collision rates and capture rates in geometrically enhanced differential immunocapture (GEDI) microfluidic devices for rare cell capture.

Authors:  James P Smith; Timothy B Lannin; Yusef Syed; Steven M Santana; Brian J Kirby
Journal:  Biomed Microdevices       Date:  2014-02       Impact factor: 2.838

4.  Characterization of microfluidic shear-dependent epithelial cell adhesion molecule immunocapture and enrichment of pancreatic cancer cells from blood cells with dielectrophoresis.

Authors:  Chao Huang; James P Smith; Trisha N Saha; Andrew D Rhim; Brian J Kirby
Journal:  Biomicrofluidics       Date:  2014-07-21       Impact factor: 2.800

Review 5.  Microfluidic transport in microdevices for rare cell capture.

Authors:  James P Smith; Alexander C Barbati; Steven M Santana; Jason P Gleghorn; Brian J Kirby
Journal:  Electrophoresis       Date:  2012-10-12       Impact factor: 3.535

6.  Characterization of a hybrid dielectrophoresis and immunocapture microfluidic system for cancer cell capture.

Authors:  Chao Huang; Steven M Santana; He Liu; Neil H Bander; Benjamin G Hawkins; Brian J Kirby
Journal:  Electrophoresis       Date:  2013-10-09       Impact factor: 3.535

Review 7.  Generation of tissue constructs for cardiovascular regenerative medicine: from cell procurement to scaffold design.

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8.  Tissue factor-expressing tumor cells can bind to immobilized recombinant tissue factor pathway inhibitor under static and shear conditions in vitro.

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9.  Circulating tumor cells in prostate cancer: Precision diagnosis and therapy.

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10.  Isolation and characterization of circulating tumor cells in prostate cancer.

Authors:  Elan Diamond; Guang Yu Lee; Naveed H Akhtar; Brian J Kirby; Paraskevi Giannakakou; Scott T Tagawa; David M Nanus
Journal:  Front Oncol       Date:  2012-10-11       Impact factor: 6.244
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