Single Cell Profiling of Potentiated Phospho-Protein Networks in Cancer Cells

Irish, Jonathan M.; Hovland, Randi; Krutzik, Peter O.; Perez, Omar D.; Bruserud, Øystein; Gjertsen, Bjørn Tore; Nolan, Garry P.

doi:10.1016/j.cell.2004.06.028

Cited by 655 publications

(626 citation statements)

References 34 publications

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“…Multiplex signaling data can be acquired from as few as 1x10 4 cells, meaning that multiple subsets of cells can be identified within a heterogeneous population 38 . Up to 15 distinct signaling events can be assayed simultaneously in live cells.…”

Section: Comparison With Other Methodsmentioning

confidence: 99%

Antibody-based detection of protein phosphorylation status to track the efficacy of novel therapies using nanogram protein quantities from stem cells and cell lines

et al. 2014

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This protocol describes a highly reproducible antibody-based method providing protein level and phosphorylation status information from nanogram quantities of protein cell lysate. Nanocapillary isoelectric focusing (cIEF) combines with UV activated linking chemistry to detect changes in phosphorylation status. We describe how to detect changes in response to tyrosine kinase inhibitors (TKIs) in the phosphorylation status of the adapter protein CrkL a major substrate of the oncogenic tyrosine kinase BCR/ABL in chronic myeloid leukaemia (CML), using highly enriched CML stem cells and mature cell populations in vitro. This protocol provides a 2.5pg/nL limit of protein detection (<0.2% of a stem cell sample containing <10 4 cells). Additional assays are described for pTyr207-CrkL and PTPRC/CD45, developed using this protocol and applied to CML patient samples. This method is high throughput and can act as a screen for in vitro cancer stem cell response to drugs and novel agents. SummaryThis protocol uses a highly sensitive and reproducible antibody-based capillary isoelectric focusing approach to establish protein phosphorylation status from nanogram quantities of protein cell lysate from cell line or primary stem cell material. Is-protocol-to

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Section: Comparison With Other Methodsmentioning

confidence: 99%

Antibody-based detection of protein phosphorylation status to track the efficacy of novel therapies using nanogram protein quantities from stem cells and cell lines

et al. 2014

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“…First by measuring the surface density of QD585 dots attached to the ligand of the epidermal growth factor receptor (EGFR) on A431 cells. EGFR has been implicated in several forms of cancer as a result of mutations involving the over-expression or constant activation of EGFR (18). Second we established a conceptual framework for quantitative determination of the rate of viral entry into cells by using quantum dot labeled human pseudo-papillomavirus (HPV) particles.…”

Section: Introductionmentioning

confidence: 99%

The development of quantum dot calibration beads and quantitative multicolor bioassays in flow cytometry and microscopy

Campos

López

et al. 2007

Analytical Biochemistry

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The use of fluorescence calibration beads has been the hallmark of quantitative flow cytometry. It has enabled the direct comparison of inter-laboratory data as well as quality control in clinical flow cytometry. In this paper we have described a simple method for producing color-generalizable calibration beads based on streptavidin functionalized quantum dots. Based on their broad absorption spectra and relatively narrow emission, that is tunable on the basis of dot-size, quantum dot calibration beads can be made for any fluorophore that matches their emission color. In an earlier publication (1) we characterized the spectroscopic properties of commercial streptavidin functionalized dots (Invitrogen). Here we describe the molecular assembly of these dots on biotinylated beads. The law of mass action is used to readily define the site densities of the dots on the beads. The applicability of these beads is tested against the industry standard, commercial fluorescein calibration beads. The utility of the calibration beads are also herein extended to the characterization surface densities of dot-labeled epidermal growth factor ligands as well as quantitative indicators of the binding of dotlabeled virus particles to cells.

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“…Furthermore, a FCA could be extended to intracellular staining, e.g. to follow signaling cascades, which is a flow cytometry application of high potential (32).…”

Section: Discussionmentioning

confidence: 99%

Identification of organ‐specific T cell populations by analysis of multiparameter flow cytometry data using DNA‐chip analysis software

Hofmann

Zerwes

2006

Cytometry Pt A

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Background:The analysis of cells from multiple experimental groups by multiparameter flow cytometry leads to the generation of complex data sets, for which adequate analysis tools are not commonly available. We report here that software designed for transcriptomics applications can be used in multiparameter flow cytometry.Methods:Lymphocytes isolated from nine different mouse organs were stained and subjected to 10‐parameter flow cytometry. The resulting data set contained 594 different T cell subsets per organ per mouse and was organized into a so‐called flow cytometry array (FCA).Results:Computation of a hierarchical tree revealed that lymph nodes and spleen were populated by similar T cell subsets, while T cells from peripheral organs displayed a diverse subset composition. Furthermore, organ‐specific T cell subsets were identified.Conclusions:This new FCA concept in flow cytomics proved to be a valuable tool for the fast and unbiased analysis of complex multiparameter flow cytometry data sets. It can be used for assessing disease progression and therapeutic intervention, and for the association of disease‐related biomarkers on the protein level. © 2006 International Society for Analytical Cytology

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Single Cell Profiling of Potentiated Phospho-Protein Networks in Cancer Cells

Cited by 655 publications

References 34 publications

Antibody-based detection of protein phosphorylation status to track the efficacy of novel therapies using nanogram protein quantities from stem cells and cell lines

Antibody-based detection of protein phosphorylation status to track the efficacy of novel therapies using nanogram protein quantities from stem cells and cell lines

The development of quantum dot calibration beads and quantitative multicolor bioassays in flow cytometry and microscopy

Identification of organ‐specific T cell populations by analysis of multiparameter flow cytometry data using DNA‐chip analysis software

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