Search results for "Cytoplasmic part"

showing 3 items of 3 documents

The Process-inducing Activity of Transmembrane Agrin Requires Follistatin-like Domains

2009

Clustering or overexpression of the transmembrane form of the extracellular matrix proteoglycan agrin in neurons results in the formation of numerous highly motile filopodia-like processes extending from axons and dendrites. Here we show that similar processes can be induced by overexpression of transmembrane-agrin in several non-neuronal cell lines. Mapping of the process-inducing activity in neurons and non-neuronal cells demonstrates that the cytoplasmic part of transmembrane agrin is dispensable and that the extracellular region is necessary for process formation. Site-directed mutagenesis reveals an essential role for the loop between beta-sheets 3 and 4 within the Kazal subdomain of t…

Central Nervous SystemFollistatinanimal structuresBiologyCytoplasmic partPC12 CellsBiochemistryProtein Structure SecondaryNeuromuscular junctionCell membraneExtracellular matrixMolecular Basis of Cell and Developmental BiologyProtein structureChlorocebus aethiopsmedicineAnimalsHumansAgrinMolecular BiologyNeuronsAgrinCell MembraneCell BiologyTransmembrane proteinProtein Structure TertiaryRatsCell biologymedicine.anatomical_structurenervous systemProteoglycanBiochemistryCOS CellsMutagenesis Site-Directedbiology.proteinFemaleChickenshormones hormone substitutes and hormone antagonistsJournal of Biological Chemistry
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S-nitrosylation of the death receptor fas promotes fas ligand-mediated apoptosis in cancer cells.

2011

International audience; BACKGROUND & AIMS: Fas belongs to the family of tumor necrosis factor receptors which induce apoptosis. Many cancer cells express Fas but do not undergo Fas-mediated apoptosis. Nitric oxide reverses this resistance by increasing levels of Fas at the plasma membrane. We studied the mechanisms by which NO affects Fas function. METHODS: Colon and mammary cancer cell lines were incubated with the NO donor glyceryl trinitrate or lipid A; S-nitrosylation of Fas was monitored using the biotin switch assay. Fas constructs that contained mutations at cysteine residues that prevent S-nitrosylation were used to investigate the involvement of S-nitrosylation in Fas-mediated cell…

MESH: NitroglycerinMESH: Signal TransductionTime FactorsMESH: Membrane MicrodomainsApoptosisMESH : Fas Ligand ProteinCytoplasmic partMESH: Lipid AFas ligandMiceNitroglycerin0302 clinical medicineMESH : Protein TransportMESH : FemaleMESH: AnimalsFADDLipid raft0303 health sciencesTumorbiologyColon CancerMESH : Lipid AMESH : BiotinylationGastroenterologyFas receptorMESH: Antigens CD95Protein TransportLipid AMESH : Colonic NeoplasmsMESH : Nitric OxideMESH : Nitric Oxide Donors030220 oncology & carcinogenesisColonic NeoplasmsDeath-inducing signaling complexFemale[ SDV.MHEP.HEG ] Life Sciences [q-bio]/Human health and pathology/Hépatology and GastroenterologyMESH : MutationMESH : TransfectionSignal TransductionMESH : Time FactorsMESH: Protein TransportFas Ligand ProteinMESH : Mammary Neoplasms ExperimentalMESH: MutationMESH: Cell Line TumorMESH: Mammary Neoplasms ExperimentalNitric OxideTransfectionCaspase 803 medical and health sciencesMembrane MicrodomainsCell Line TumorMESH : MiceAnimalsHumansBiotinylationNitric Oxide DonorsMESH: BiotinylationCysteinefas ReceptorMESH: MiceMESH : Protein Processing Post-Translational030304 developmental biologyMESH : Signal TransductionMESH: Colonic NeoplasmsMESH : CysteineMESH: HumansHepatologyMESH : Cell Line TumorMESH: ApoptosisMESH: TransfectionMESH : HumansMESH: Time FactorsMammary Neoplasms Experimental[SDV.MHEP.HEG]Life Sciences [q-bio]/Human health and pathology/Hépatology and GastroenterologyMESH: CysteineMESH: Nitric Oxide DonorsMolecular biologySignalingMESH: Fas Ligand ProteinMESH : NitroglycerinApoptosisLocalizationMESH: Nitric OxideMESH: Protein Processing Post-TranslationalMutationbiology.proteinMESH : Membrane MicrodomainsMESH : AnimalsMESH : Antigens CD95Protein Processing Post-TranslationalMESH: FemaleMESH : Apoptosis
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Cytoplasmic STAT proteins associate prior to activation

2000

The commonly accepted model of STAT factor activation at the cytoplasmic part of the receptor assumes that signal transducers and activators of transcription (STATs) are recruited from a cytoplasmic pool of monomeric STAT proteins. Based on a previous observation that non-phosphorylated STAT3-Src homology 2 domains dimerize in vitro, we investigated whether the observed dimerization is of physiological relevance within the cellular context. We show that STAT1 and STAT3 are pre-associated in non-stimulated cells. Apparently, these complexes are not able to translocate into the nucleus. We provide evidence that the event of STAT activation is more complex than previously assumed.

STAT3 Transcription FactorCytoplasmCarcinoma HepatocellularMolecular Sequence DataCross ReactionsTransfectionCytoplasmic partBiochemistrystatTumor Cells CulturedAnimalsHumansProtein inhibitor of activated STATAmino Acid SequenceSTAT1PhosphorylationSTAT3MelanomaMolecular BiologySTAT4STAT6biologyInterleukin-6Liver NeoplasmsCell BiologyPrecipitin TestsMolecular biologyCell biologyDNA-Binding ProteinsSTAT1 Transcription FactorCOS CellsTrans-Activatorsbiology.proteinSTAT proteinTyrosineDimerizationResearch ArticleBiochemical Journal
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