Search results for "Move"

showing 10 items of 2153 documents

The Effect of Physical Activity and High Body Mass Index on Health-Related Quality of Life in Individuals with Metabolic Syndrome

2020

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IL-23 receptor regulates unconventional IL-17-producing T cells that control bacterial infections.

2010

AbstractIL-23 plays an important role in autoimmune tissue inflammation and induces the generation of not fully characterized effector cells that mediate protection against pathogens. In this paper, we established the essential role of IL-23R in the host response against intracellular pathogens. IL-23 was critical for the expansion or maintenance of γδ and double negative (DN) αβ T cells. These cells were rapidly recruited to the site of infection and produced large amounts of IL-17, IFN-γ, and TNF-α. Notably, DN T cells transferred into L. monocytogenes-infected RAG2−/− mice prevented bacterial growth, confirming their protective role against intracellular pathogens. Our results show that …

T cellCD8 AntigensReceptors Antigen T-Cell alpha-betaImmunologyMice NudeMice TransgenicBiologyArticleImmunophenotypingInterferon-gammaMiceImmune systemAntigenCell MovementT-Lymphocyte SubsetsmedicineImmunology and AllergyAnimalsInterferon gammaListeriosisCells CulturedMice KnockoutEffectorTumor Necrosis Factor-alphaIntracellular parasiteInterleukin-17Receptors Antigen T-Cell gamma-deltaReceptors InterleukinCoculture TechniquesCell biologymedicine.anatomical_structureImmunologyCD4 AntigensInterleukin-23 Subunit p19Tumor necrosis factor alphaInterleukin 17Peritoneummedicine.drugJournal of immunology (Baltimore, Md. : 1950)

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Immature, but not inactive: the tolerogenic function of immature dendritic cells.

2002

The induction of antigen-specific T cell tolerance and its maintenance in the periphery is critical for the prevention of autoimmunity. Recent evidence shows that dendritic cells (DC) not only initiate T cell responses, but are also involved in silencing of T cell immune responses. The functional activities of DC are mainly dependent on their state of activation and differentiation, that is, terminally differentiated mature DC can efficiently induce the development of T effector cells, whereas immature DC are involved in maintenance of peripheral tolerance. The means by which immature DC maintain peripheral tolerance are not entirely clear, however, their functions include the induction of …

T cellImmunologyAntigen presentationClonal DeletionAutoimmunityBiologyAutoantigensClonal deletionMiceImmune systemCell MovementT-Lymphocyte SubsetsmedicineImmune ToleranceImmunology and AllergyCytotoxic T cellAnimalsHumansIL-2 receptorAntigen-presenting cellAntigen PresentationImmunity CellularModels ImmunologicalPeripheral toleranceCell BiologyDendritic CellsCell biologymedicine.anatomical_structureOrgan SpecificityImmunologyImmunology and cell biology

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Type-II transmembrane prolyl dipeptidases and matrix metalloproteinases in membrane vesicles of active endothelial cells.

2006

Conclusions: Endothelia cells in sparse culture are migratory and increase the production of gelatinases of serine- and metallo-classes in membrane vesicles. Collectively, proteases associated with membrane vesicles degrade extracellular matrix components including type-I and type-IV collagens, laminin and fibronectin. Inhibitor studies suggest the existence of small gelatinases that were derived from these serine- and metallo-proteases. Thus, further studies are warranted to demonstrate the cooperative action of metallo- and serine proteases on cell surfaces and in extracellular vesicles during endothelial cell migration in 3D collagenous matrices, and potential proteolytic activation mech…

TUMOR-CELLSCell MembraneBREAST-CARCINOMA CELLSEndothelial CellsUP-REGULATIONANGIOGENESISMatrix MetalloproteinasesExtracellular MatrixACTIVATIONEnzyme ActivationNEUROPEPTIDE-YCell MovementSEPRASESettore BIO/10 - BiochimicaMETASTASISPEPTIDASE-IVHumansDipeptidyl-Peptidases and Tripeptidyl-PeptidasesINTEGRINCells CulturedAdvances in experimental medicine and biology

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Binding properties and stability of the Ras-association domain of Rap1-GTP interacting adapter molecule (RIAM).

2012

The Rap1-GTP interacting adapter protein (RIAM) is an important protein in Rap1-mediated integrin activation. By binding to both Rap1 GTPase and talin, RIAM recruits talin to the cell membrane, thus facilitating talin-dependent integrin activation. In this article, we studied the role of the RIAM Ras-association (RA) and pleckstrin-homology (PH) domains in the interaction with Rap1. We found that the RA domain was sufficient for GTP-dependent interaction with Rap1B, and the addition of the PH domain did not change the binding affinity. We also detected GTP-independent interaction of Rap1B with the N-terminus of RIAM. In addition, we found that the PH domain stabilized the RA domain both in …

TalinIntegrinsGTP'lcsh:MedicineGTPaseSignal transductionBiochemistryProtein structureMolecular cell biologyRIAMlcsh:Science0303 health sciencesMultidisciplinarybiologyProtein Stability030302 biochemistry & molecular biologySignal transducing adaptor proteinrap1 GTP-Binding ProteinssitoutuminenCell biologyPleckstrin homology domainRap1Research Articleendocrine systemvuorovaikutusProtein domainIntegrinSignaling in cellular processesPhosphoinositide Signal TransductionSignaling Pathways03 medical and health sciencesCell AdhesionHumansProtein InteractionsBiologyGTPase signaling030304 developmental biologyRas signalingAdaptor Proteins Signal Transducingintegriinitlcsh:RProteinsMembrane ProteinsRegulatory ProteinsProtein Structure TertiaryCytoskeletal Proteinsenzymes and coenzymes (carbohydrates)rap GTP-Binding ProteinsCell movement signalingbiology.proteinta1181lcsh:QPLoS ONE

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Vale of Tears: The Dangerous Health Effects of Tear Gas Used in the Hong Kong Pro-Democracy Movement

2020

Tear gasMovement (music)Political sciencemedia_common.quotation_subjectGeneral Earth and Planetary SciencesTearsCriminologyDemocracyGeneral Environmental Sciencemedia_commonISEE Conference Abstracts

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Neurogenesis and Neuronal Regeneration in the Adult Reptilian Brain

2002

Evidence accumulated over the last few decades demonstrates that all reptiles examined thus far continue to add neurons at a high rate and in many regions of the adult brain. This so-called adult neurogenesis has been described in the olfactory bulbs, rostral forebrain, all cortical areas, anterior dorsal ventricular ridge, septum, striatum, nucleus sphericus, and cerebellum. The rate of neuronal production varies greatly among these brain areas. Moreover, striking differences in the rate and distribution of adult neurogenesis have been noted among species. In addition to producing new neurons in the adult brain, lizards, and possibly other reptiles as well, are capable of regenerating larg…

TelencephalonAgingCerebellumRostral migratory streamStriatumBiologyBehavioral NeuroscienceSpecies SpecificityDevelopmental NeuroscienceCell MovementmedicineAnimalsNeuronsCerebrumStem CellsNeurogenesisBrainReptilesCell DifferentiationNerve Regenerationmedicine.anatomical_structurenervous systemForebrainStem cellEpendymaNeurogliaNeuroscienceCell DivisionBrain, Behavior and Evolution

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Defective Postnatal Neurogenesis and Disorganization of the Rostral Migratory Stream in Absence of theVax1Homeobox Gene

2004

The subventricular zone (SVZ) is one of the sources of adult neural stem cells (ANSCs) in the mouse brain. Precursor cells proliferate in the SVZ and migrate through the rostral migratory stream (RMS) to the olfactory bulb (OB), where they differentiate into granule and periglomerular cells. Few transcription factors are known to be responsible for regulating NSC proliferation, migration, and differentiation processes; even fewer have been found to be responsible for the organization of the SVZ and RMS. For this reason, we studied the ventral anterior homeobox (Vax1) gene in NSC proliferation and in SVZ organization. We found thatVax1is strongly expressed in the SVZ and in the RMS and that,…

TelencephalonRostral migratory streamanimal diseasesCellular differentiationDevelopment/Plasticity/RepairSubventricular zoneMice TransgenicNerve Tissue ProteinsBiologyMiceCell MovementPrecursor cellmedicineAnimalsCell ProliferationHomeodomain ProteinsMice KnockoutStem CellsGeneral NeuroscienceNeuropeptidesGenes HomeoboxGene Expression Regulation DevelopmentalCell DifferentiationOlfactory BulbNeural stem cellOlfactory bulbDNA-Binding Proteinsmedicine.anatomical_structurenervous systemStem cellEpendymaNeuroscienceTranscription FactorsThe Journal of Neuroscience

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Sustained activation of mTOR pathway in embryonic neural stem cells leads to development of tuberous sclerosis complex-associated lesions

2011

SummaryTuberous Sclerosis Complex (TSC) is a multisystem genetic disorder characterized by hamartomatous neurological lesions that exhibit abnormal cell proliferation and differentiation. Hyperactivation of mTOR pathway by mutations in either the Tsc1 or Tsc2 gene underlies TSC pathogenesis, but involvement of specific neural cell populations in the formation of TSC-associated neurological lesions remains unclear. We deleted Tsc1 in Emx1-expressing embryonic telencephalic neural stem cells (NSCs) and found that mutant mice faithfully recapitulated TSC neuropathological lesions, such as cortical lamination defects and subependymal nodules (SENs). These alterations were caused by enhanced gen…

Telencephaloncongenital hereditary and neonatal diseases and abnormalitiesCellular differentiationNeuroepithelial CellsEmbryonic DevelopmentBiologyTuberous Sclerosis Complex 1 Proteinmurine modelCerebral VentriclesMiceNeural Stem CellsCell MovementTuberous SclerosismedicineGeneticsAnimalsAnimals; Animals Newborn; Cell Differentiation; Cell Movement; Cell Proliferation; Cerebral Ventricles; Embryonic Development; Embryonic Stem Cells; Epilepsy; Gene Silencing; Gene Targeting; Megalencephaly; Mice; Mutation; Neural Stem Cells; Neuroepithelial Cells; Neurons; TOR Serine-Threonine Kinases; Telencephalon; Tuberous Sclerosis; Tuberous Sclerosis Complex 1 Protein; Tumor Suppressor Proteins; Signal TransductionGene SilencingNeural cellPI3K/AKT/mTOR pathwayEmbryonic Stem CellsCell ProliferationNeuronsEpilepsymTOR; Neural Stem Cells; Tuberous Sclerosis; murine modelTOR Serine-Threonine KinasesTumor Suppressor ProteinsCell DifferentiationCell BiologyNewbornEmbryonic stem cellNeural stem cellMegalencephalyCell biologynervous system diseasesNeuroepithelial cellmedicine.anatomical_structureAnimals NewbornImmunologyGene TargetingMutationmTORMolecular MedicineTSC1TSC2Signal Transduction

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Novel triplet of flexor muscles in the posterior tentacles of the snail, Helix pomatia.

2012

The anatomy of three novel flexor muscles in the posterior tentacles of Helix pomatia is described. The muscles originate from the ventral side of the sensory pad and are anchored at different sites in the base of the tentacle stem. The muscles span the tentacle and always take the length of the stem which depends on the rate of tentacle protrusion indicating that the muscles are both contractile and extremely stretchable. The three anchoring points at the base of the stem determine three space axes along which the contraction of a muscle or the synchronous contraction of the muscles can move the tentacle in space.

TentaclebiologyHelix SnailsMovementMusclesVentral sideSnailHelix pomatiaAnatomyFlexor musclesbiology.organism_classificationGeneral Biochemistry Genetics and Molecular BiologyEyestalkNeurologybiology.animalAnimalsGeneral Environmental ScienceActa biologica Hungarica

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