Search results for "Myristoylated Alanine-Rich C Kinase Substrate"

showing 5 items of 5 documents

Curcumin modulates chronic myelogenous leukemia exosomes composition and affects angiogenic phenotype, via exosomal miR-21

2016

Abstract: Tumor derived exosomes are vesicles which contain proteins and microRNAs that mediate cell-cell communication and are involved in angiogenesis and tumor progression. Curcumin derived from the plant Curcuma longa, shows anticancer effects. Exosomes released by CML cells treated with Curcumin contain a high amount of miR-21 that is shuttled into the endothelial cells in a biologically active form. The treatment of HUVECs with CML Curcu-exosomes reduced RhoB expression and negatively modulated endothelial cells motility. We showed that the addition of CML control exosomes to HUVECs caused an increase in IL8 and VCAM1 levels, but Curcu-exosomes reversed these effects thus attenuating …

0301 basic medicineProteomicsCurcuminProteomeAngiogenesisRHOBNeovascularization PhysiologicAntineoplastic AgentsexosomesExosome03 medical and health scienceschemistry.chemical_compound0302 clinical medicineSettore BIO/13 - Biologia ApplicataCell Line TumorLeukemia Myelogenous Chronic BCR-ABL PositiveHuman Umbilical Vein Endothelial CellsMedicineHumansInterleukin 8MARCKSMyristoylated Alanine-Rich C Kinase SubstrateCMLBiologyCells CulturedNeovascularization Pathologicbusiness.industryexosomes curcumin miR-21 CMLMicrovesiclesCell biologyMicroRNAs030104 developmental biologyOncologychemistryGene Expression RegulationSettore CHIM/09 - Farmaceutico Tecnologico Applicativo030220 oncology & carcinogenesisImmunologyCurcuminmiR-21Human medicinebusinessK562 CellsK562 cellsResearch PaperOncotarget
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p42 MAPK phosphorylates 80 kDa MARCKS at Ser-113.

1996

Abstract It is demonstrated here that p42 MAPKinase (p42 MAPK) phosphorylates the M yristoylated A lanine- R ich C - K inase S ubstrate (MARCKS) at Ser-113. In permeabilised Swiss 3T3 cells activation of protein kinase C (PKC) leads to p42 MAPK activation, but only the protein kinase C sites in MARCKS become phosphorylated and not Ser-113. The mitogen platelet-derived growth factor (PDGF) elicits the same response. These results demonstrate that while Ser-113 is a substrate for p42 MAPK in vitro and can be phosphorylated in vivo as shown by Taniguchi et al. [(1994) J. Biol. Chem. 269, 18299–18302], its phosphorylation is not subject to acute regulation by p42 MAPK in Swiss 3T3 cells.

MAPK/ERK pathwayMARCKSmedicine.medical_treatmentMitogen-activated protein kinase kinaseBiochemistryenvironment and public healthSubstrate SpecificityMiceStructural BiologySerinep42MAPKinasePhosphorylationMyristoylated Alanine-Rich C Kinase SubstrateCells CulturedProtein Kinase CMitogen-Activated Protein Kinase 1Platelet-Derived Growth FactorbiologyChemistryIntracellular Signaling Peptides and Proteins3T3 CellsProtein-Tyrosine KinasesCell biologyBiochemistryMitogen-activated protein kinasePhosphorylationTetradecanoylphorbol Acetatebiological phenomena cell phenomena and immunityPlatelet-derived growth factor receptorhormones hormone substitutes and hormone antagonistsendocrine systemRecombinant Fusion ProteinsMolecular Sequence DataBiophysicsGeneticsmedicineAnimalsAmino Acid SequenceMARCKSMolecular BiologyProtein kinase CGrowth factorMembrane ProteinsProteinsCell BiologyPeptide FragmentsEnzyme ActivationMolecular Weightenzymes and coenzymes (carbohydrates)Calcium-Calmodulin-Dependent Protein Kinasesbiology.proteinMutagenesis Site-DirectedMitogensFEBS letters
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PRK1 phosphorylates MARCKS at the PKC sites: serine 152, serine 156 and serine 163

1996

AbstractThe 80kDa Myristolated Alanine-Rich C-Kinase Substrate (MARCKS) in a major in vivo substrate of protein kinase C (PKC). Here we report that MARCKS is a major substrate for the lipid-activated PKC-related kinase (PRK1) in cell extracts. Furthermore, PRK1 is shown to phosphorylate MARCKS on the same sites as PKC in vitro. Thus, control of MARCKS phosphorylation on these previously identified ‘PKC’ sites may be regulated under certain circumstances by PRK as well as PKC mediated signalling pathways. The implications for MARCKS as a marker of PKC activation and as a point of signal convergence are discussed.

PhosphopeptidesMARCKSPRKRecombinant Fusion ProteinsMolecular Sequence DataBiophysicsKidneyBiochemistryCell-free systemCell LineSerineStructural BiologyProtein kinase CGeneticsAnimalsAmino Acid SequenceBinding siteMARCKSPKCPhosphorylationMyristoylated Alanine-Rich C Kinase SubstrateMolecular BiologyProtein kinase CGlutathione TransferaseBinding SitesCell-Free SystemKinaseChemistryIntracellular Signaling Peptides and ProteinsMembrane ProteinsProteinsCell BiologyHaplorhiniPeptide FragmentsBiochemistryPhosphorylationElectrophoresis Polyacrylamide GelSignal transductionSequence AnalysisSignal TransductionFEBS Letters
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The 3'-UTR of the mRNA coding for the major protein kinase C substrate MARCKS contains a novel CU-rich element interacting with the mRNA stabilizing …

2003

The expression of the major protein kinase C substrate MARCKS (myristoylated alanine-rich C kinase substrate) is controlled by the stability of its mRNA. While the MARCKS mRNA is long living in quiescent fibroblasts (t1/2 = 14 h), its half-life time is drastically reduced (t1/2 = 2 h) in cells treated with phorbol esters to activate protein kinase C (PKC) or treated with growth factors. In a first step to study the underlying mechanism we identified both a cis-element on the MARCKS mRNA and the corresponding trans-acting factors. Fusing the complete 3'-UTR or specific regions of the 3'-UTR of the MARCKS gene to a luciferase reporter gene caused a drastic decrease in luciferase expression to…

Untranslated regionRecombinant Fusion ProteinsELAV-Like Protein 1Down-RegulationNerve Tissue ProteinsELAV-Like Protein 4BiologyBiochemistryELAV-Like Protein 1MiceGenes ReporterAnimalsRNA MessengerMARCKSLuciferasesMyristoylated Alanine-Rich C Kinase Substrate3' Untranslated RegionsProtein Kinase CProtein kinase CAU-rich elementMessenger RNAThree prime untranslated regionIntracellular Signaling Peptides and ProteinsMembrane ProteinsProteinsRNA-Binding Proteins3T3 CellsFibroblastsMolecular biologyELAV ProteinsAntigens SurfaceMARCKS GeneEuropean Journal of Biochemistry
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The Myristoylated Alanine-Rich C-Kinase Substrate (MARCKS) is Sequentially Phosphorylated by Conventional, Novel and Atypical Isotypes of Protein Kin…

1995

The myristoylated alanine-rich C-kinase substrate (MARCKS) is the major protein kinase C (PKC) substrate in many cell types including fibroblasts and brain cells. Here we describe the phosphorylation of MARCKS and the site specificity for different PKC isotypes. Conventional (c)PKC beta 1, novel (n)PKC delta and nPKC epsilon efficiently phosphorylated the MARCKS protein in vitro. The Km values were extremely low, reflecting a high affinity between kinases and substrate. The apparent affinity of nPKC delta (Km = 0.06 microM) was higher than that of nPKC epsilon and cPKC beta 1 (Km = 0.32 microM). The rate of substrate phosphorylation was inversely correlated with affinity and decreased in th…

inorganic chemicalsKinaseChemistryIntracellular Signaling Peptides and ProteinsMembrane ProteinsProteinsContext (language use)macromolecular substancesenvironment and public healthBiochemistryMolecular biologyCell biologyIsoenzymesSerineKineticsenzymes and coenzymes (carbohydrates)Substrate-level phosphorylationbacteriaPhosphorylationPhosphorylationMARCKSMyristoylated Alanine-Rich C Kinase SubstrateProtein Kinase CProtein kinase CMyristoylationEuropean Journal of Biochemistry
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