Virginie Moucadel scite author profile

Binding of erythropoietin to the erythropoietin receptor (EpoR) extracellular domain orients the transmembrane (TM) and cytosolic regions of the receptor dimer into an unknown activated conformation. By replacing the EpoR extracellular domain with a dimeric coiled coil, we engineered TM EpoR fusion proteins where the helical TM domains were constrained into seven possible relative orientations. We identify one dimeric TM conformation that imparts full activity to the cytosolic domain of the receptor and signals via JAK2, STAT proteins, and MAP kinase, one partially active orientation that preferentially activates MAP kinase, and one conformation corresponding to the inactive receptor. The active and inactive conformations were independently identified by computational searches for low-energy TM dimeric structures. We propose a specific EpoR-activated interface and suggest its use for structural and signaling studies.

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Dynamic single-cell phenotyping of immune cells using the microfluidic platform DropMap

Bounab¹,

Eyer²,

Dixneuf³

et al. 2020

Nat Protoc

107

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This protocol describes a microfluidic platform for dynamic high-throughput analysis the phenotype of single cells. Cell-surface markers and secreted proteins are quantified and characterized by fluorescence detection using tailored immunoassays, simultaneously with measurement of other cellular characteristics, including endocytosis activity and viability.TWEET A new protocol describes a microfluidics-based assay for high-throughput interrogation of protein secretion kinetics in single cells. @BIOASTER @EyerFira @ETH_DCHAB COVER TEASER Microfluidics-based analysis of protein secretion Up to three primary research articles where the protocol has been used and/or developed.

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Identification of Polyoxometalates as Nanomolar Noncompetitive Inhibitors of Protein Kinase CK2

Prudent¹,

Moucadel²,

Laudet³

et al. 2008

Chemistry & Biology

153

102

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Protein kinase CK2 is a multifunctional kinase of medical importance that is dysregulated in many cancers. In this study, polyoxometalates were identified as original CK2 inhibitors. [P2Mo18O62](6-) has the most potent activity. It inhibits the kinase in the nanomolar range by targeting key structural elements located outside the ATP- and peptide substrate-binding sites. Several polyoxometalate derivatives exhibit strong inhibitory efficiency, with IC50 values < or = 10 nM. Furthermore, these inorganic compounds show a striking specificity for CK2 when tested in a panel of 29 kinases. Therefore, polyoxometalates are effective CK2 inhibitors in terms of both efficiency and selectivity and represent nonclassical kinase inhibitors that interact with CK2 in a unique way. This binding mode may provide an exploitable mechanism for developing potent drugs with desirable properties, such as enhanced selectivity relative to ATP-mimetic inhibitors.

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Cdx1 promotes differentiation in a rat intestinal epithelial cell line

et al. 1999

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