High-resolution mapping of prostaglandin E2–dependent signaling networks identifies a constitutively active PKA signaling node in CD8+CD45RO+ T cells

Oberprieler, Nikolaus G.; Lemeer, Simone; Kalland, Maria Elisabeth; Torgersen, Knut Martin; Heck, Albert J. R.; Taskén, Kjetil

doi:10.1182/blood-2010-01-266650

Cited by 38 publications

(43 citation statements)

References 43 publications

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“…Pull-down assays cAMP pulldown assays (8-AHA-cAMP-agarose beads) were performed as described previously (Oberprieler et al, 2010;Scholten et al, 2006). Cell lysate (500 mg proteins) was incubated with purified RI-FLAG or RII-FLAG proteins (100 mg).…”

Section: Protein Expression and Purificationmentioning

confidence: 99%

A PKA-ezrin-connexin 43 signaling complex controls gap junction communication and thereby trophoblast cell fusion

Pidoux

Gerbaud

Dompierre

et al. 2014

Journal of Cell Science

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Cell fusion occurs as part of the differentiation of some cell types, including myotubes in muscle and osteoclasts in remodeling bone. In the human placenta, mononuclear cytotrophoblasts in a human chorionic gonadotropin (hCG)-driven process fuse to form multinucleated syncytia that allow the exchange of nutrients and gases between the maternal and fetal circulation. Experiments in which protein kinase A (PKA) is displaced from A-kinase anchoring proteins (AKAPs), or in which specific AKAPs are depleted by siRNA-mediated knockdown, point to ezrin as a scaffold required for hCG-, cAMP-and PKA-mediated regulation of the fusion process. By a variety of immunoprecipitation and immunolocalization experiments, we show that ezrin directs PKA to a molecular complex of connexin 43 (Cx43, also known as GJA1) and zona occludens-1 (ZO-1, also known as TJP1). A combination of knockdown experiments and reconstitution with ezrin or Cx43 with or without the ability to bind to its interaction partner or to PKA demonstrate that ezrin-mediated coordination of the localization of PKA and Cx43 is necessary for discrete control of Cx43 phosphorylation and hCG-stimulated gap junction communication that triggers cell fusion in cytotrophoblasts.

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Section: Protein Expression and Purificationmentioning

confidence: 99%

A PKA-ezrin-connexin 43 signaling complex controls gap junction communication and thereby trophoblast cell fusion

Pidoux

Gerbaud

Dompierre

et al. 2014

Journal of Cell Science

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“…However, recent technical developments, including fluorescent cell barcoding (FCB) (31) and a growing number of phospho-epitope-specific Abs, have made it possible to use phospho-epitope-specific flow (phospho-flow) cytometry-based methods to study signaling processes at single-cell resolution in several phenotypically defined T cell subsets simultaneously (32)(33)(34). Furthermore, these developments have enabled an increase in the resolution to a level at which signaling differences can be linked to functional properties in small subsets of cells.…”

Section: Cd45romentioning

confidence: 99%

“…Three-dimensional FCB was carried out, as previously described (34,35). In brief, fixed cells were incubated with varying concentrations of esters conjugated to Pacific Blue (100, 25, 6.3, 0.7 pg/ml; Molecular Probes, Invitrogen), Pacific Orange (1000, 250, 41.7, 4.2 pg/ml; Molecular Probes, Invitrogen), and Alexa Fluor 488 (50, 12.5, 3.1, 0.3 pg/ml; Molecular Probes, Invitrogen) for 20 min at room temperature.…”

Section: Fluorescent Cell Barcodingmentioning

confidence: 99%

T Cell-Signaling Network Analysis Reveals Distinct Differences between CD28 and CD2 Costimulation Responses in Various Subsets and in the MAPK Pathway between Resting and Activated Regulatory T Cells

Kalland

Oberprieler

Vang

et al. 2011

The Journal of Immunology

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To uncover signaling system differences between T cell stimuli and T cell subsets, phosphorylation status of 18 signaling proteins at six different time points following TCR triggering and CD28/CD2 costimulation was examined in human T cell subsets by phospho-epitope–specific flow cytometry of fluorescent cell barcoded samples, thereby providing a high-resolution signaling map. Compared with effector/memory T cells, naive T cells displayed stronger activation of proximal signaling molecules after TCR triggering alone. Conversely, distal phosphorylation events, like pErk and pS6-ribosomal protein, were stronger in effector/memory subsets. CD28 costimulation specifically induced signaling necessary for proper NF-κB activation, whereas CD2 signaled more strongly to S6-ribosomal protein. Analysis of resting regulatory T cells (rTregs; CD4+CD45RA+FOXP3+) and activated regulatory T cells (actTregs; CD4+CD45RA−FOXP3++) revealed that, although rTregs had low basal, but inducible, Erk activity, actTregs displayed high basal Erk phosphorylation and little or no Akt activation. Interestingly, the use of Mek inhibitors to block Erk activation inhibited activation-dependent FOXP3 upregulation in rTregs, their transition to actTregs, and the resulting increase in suppressive capacity. In summary, our systems approach unraveled distinct differences in signaling elicited by CD28 and CD2 costimulation and between rTregs and actTregs. Blocking rTreg transition to highly suppressive actTregs by Mek inhibitors might have future therapeutic applications.

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“…The combination of phosphopeptide enrichment (3)(4)(5)(6), stable isotope labeling, and high-resolution mass spectrometry (MS) methods (7)(8)(9) has become the method of choice for the identification of novel phosphorylation sites and for the quantitation of temporal dynamics within signaling networks (10,11), allowing the behavior of thousands of phosphorylation sites to be studied in a single experiment (10,12,13). Nowadays, one of the most commonly adopted high-throughput phosphoproteomics strategies utilizes two consecutive separation steps: (i) an initial fractionation to reduce the sample complexity, and (ii) a phosphopeptide-specific affinity purification.…”

mentioning

confidence: 99%

Interrogating cAMP-dependent Kinase Signaling in Jurkat T Cells via a Protein Kinase A Targeted Immune-precipitation Phosphoproteomics Approach

Giansanti

Stokes

Silva

et al. 2013

Molecular & Cellular Proteomics

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In the past decade, mass-spectrometry-based methods have emerged for the quantitative profiling of dynamic changes in protein phosphorylation, allowing the behavior of thousands of phosphorylation sites to be monitored in a single experiment. However, when one is interested in specific signaling pathways, such shotgun methodologies are not ideal because they lack selectivity and are not cost and time efficient with respect to instrument and data analysis time.Here we evaluate and explore a peptide-centric antibody generated to selectively enrich peptides containing the cAMP-dependent protein kinase (PKA) consensus motif. This targeted phosphoproteomic strategy is used to profile temporal quantitative changes of potential PKA substrates in Jurkat T lymphocytes upon prostaglandin E 2 (PGE 2 ) stimulation, which increases intracellular cAMP, activating PKA. Our method combines ultra-high-specificity motif-based immunoaffinity purification with cost-efficient stable isotope dimethyl labeling. We identified 655 phosphopeptides, of which 642 (i. The identification and quantification of protein phosphorylation under system perturbations is an integral part of systems biology (1, 2). The combination of phosphopeptide enrichment (3-6), stable isotope labeling, and high-resolution mass spectrometry (MS) methods (7-9) has become the method of choice for the identification of novel phosphorylation sites and for the quantitation of temporal dynamics within signaling networks (10, 11), allowing the behavior of thousands of phosphorylation sites to be studied in a single experiment (10, 12, 13). Nowadays, one of the most commonly adopted high-throughput phosphoproteomics strategies utilizes two consecutive separation steps: (i) an initial fractionation to reduce the sample complexity, and (ii) a phosphopeptide-specific affinity purification. Such techniques include strong cation exchange fractionation under acidic conditions (3), followed by a chelation-based method with the use of metal ions (i.e. immobilized metal ion affinity chromatography (4), metal oxide affinity chromatography (10, 14), or Ti 4ϩ immobilized metal ion affinity chromatography (6)). Alternatives to strong cation exchange for the first sample fractionation step have also been reported, including the use of electrostatic repulsion liquid chromatography (15, 16), which is well suited for the identification of multiply phosphorylated peptides, or hydrophilic interaction chromatography (17). Although the number of detected phosphorylated peptides is nowadays impressive, these kinds of methodologies are still inclined to identify/quantify the more abundant phosphoproteins present in a sample. For example, phosphotyrosine peptides are underrepresented because of their relatively lower abundance.In order to analyze key signaling events that may occur on less abundant phosphoproteins, more targeted approaches, focused on a specific pathway or a specific post-translational modification, are thus still essential. Studies examining posttranslational modifications are ...

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High-resolution mapping of prostaglandin E2–dependent signaling networks identifies a constitutively active PKA signaling node in CD8+CD45RO+ T cells

Abstract: To analyze prostaglandin E 2 (PGE 2 ) signaling in lymphoid cells, we introduce a multipronged strategy, combining temporal quantitative phosphoproteomics and phospho flow cytometry. We describe the

Cited by 38 publications

References 43 publications

A PKA-ezrin-connexin 43 signaling complex controls gap junction communication and thereby trophoblast cell fusion

A PKA-ezrin-connexin 43 signaling complex controls gap junction communication and thereby trophoblast cell fusion

T Cell-Signaling Network Analysis Reveals Distinct Differences between CD28 and CD2 Costimulation Responses in Various Subsets and in the MAPK Pathway between Resting and Activated Regulatory T Cells

Interrogating cAMP-dependent Kinase Signaling in Jurkat T Cells via a Protein Kinase A Targeted Immune-precipitation Phosphoproteomics Approach

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