0000000000524560

AUTHOR

Maria Pia Felli

showing 3 related works from this author

The thymus at the crossroad of neuroimmune interactions.

2006

The numerous relationships existing between the nervous and the immune systems suggest that the neural networks present in the intrathymic microenvironment may influence T-cell development. We previously reported that thymic neural-crest-derived stromal cells are involved in a neural differentiation pathway and are able to produce neurotrophic factors and neurokines that are in turn able to increase and/or modulate thymic-stromal cell neuronal phenotype. We also showed that EGF promotes a neural phenotype in thymic epithelial cells by enhancing the expression of neuronal-specific markers, neurotransmitters, and neuropoietic cytokines, such as IL-6 and CNTF. More recently we showed that the …

Stromal cellbiologyNeuroimmunomodulationGeneral NeuroscienceT-LymphocytesThymus GlandCiliary neurotrophic factorCell fate determinationPhenotypeGeneral Biochemistry Genetics and Molecular BiologyCell biologyThymocyteImmune systemHistory and Philosophy of ScienceNeurotrophic factorsImmunologybiology.proteinAnimalsHumansNeurotrophinAnnals of the New York Academy of Sciences
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Expression pattern of Notch1, 2 and 3 and Jagged1 and 2 in lymphoid and stromal thymus components: distinct ligand–receptor interactions in intrathym…

1999

The suggested role of Notch1 or its mutants in thymocyte differentiation and T cell tumorigenesis raises the question of how the different members of the Notch family influence distinct steps in T cell development and the role played by Notch ligands in the thymus. We report here that different Notch receptor-ligand partnerships may occur inside the thymus, as we observed differential expression of Notch1, 2 and 3 receptors, their ligands Jagged1 and 2, and downstream intracellular effectors hairy and Enhancer of Split homolog 1 (HES-1) and hairy and Enhancer of Split homolog 5 (HES-5), depending on ontogenetic stage and thymic cell populations. Indeed, while Jagged2 is expressed in both st…

MaleT-LymphocytesLigandsMiceNotch FamilyCell–cell interactionT-Lymphocyte SubsetsBasic Helix-Loop-Helix Transcription FactorsImmunology and AllergySerrate-Jagged ProteinsReceptor Notch2Receptor Notch1Receptor Notch4Receptor Notch3Receptors NotchHelix-Loop-Helix Motifscell-cell interaction; thymic stromal cells; thymocyteCell DifferentiationGeneral MedicineCell biologyDNA-Binding ProteinsThymocytemedicine.anatomical_structureIntercellular Signaling Peptides and ProteinsJagged-2 ProteinSignal TransductionStromal cellLymphoid TissueT cellImmunologyNotch signaling pathwayReceptors Cell SurfaceThymus GlandBiologySerrate-Jagged ProteinsProto-Oncogene ProteinsmedicineAnimalsRNA MessengerHomeodomain ProteinsCalcium-Binding ProteinsMembrane ProteinsProteinsMice Inbred C57BLRepressor ProteinsProtein BiosynthesisTranscription Factor HES-1Jagged-1 ProteinStromal CellsCarrier ProteinsJagged-1 ProteinTranscription FactorsInternational Immunology
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Expression of metabotropic glutamate receptors in murine thymocytes and thymic stromal cells

2000

RT-PCR combined with immunoblotting showed the expression of group-I (mGlu1 and 5) and group-II (mGlu2 and 3) metabotropic glutamate receptors in whole mouse thymus, isolated thymocytes and TC-1S thymic stromal cell line. Cytofluorimetric analysis showed that mGlu-5 receptors were absent in CD4(-)/CD8(-) but present in more mature CD4(+) CD8(+) and CD4(+)CD8(-) thymocytes. mGlu-1a receptors showed an opposite pattern of expression with respect to mGlu5, whereas mGlu2/3 receptor expression did not differ between double negative and double positive cells. mGlu receptors expressed in both thymic cell components were functional, as indicated by measurements of polyphosphoinositide hydrolysis or…

CD4-Positive T-LymphocytesMalemedicine.medical_specialtyStromal cellNeuroimmunomodulationReceptor expressionBlotting WesternImmunologyGene ExpressionThymus GlandCD8-Positive T-LymphocytesReceptors Metabotropic GlutamateCell LineMicePhosphatidylinositol PhosphatesInternal medicineCyclic AMPmedicineAnimalsImmunology and AllergyCycloleucineRNA MessengerReceptorReverse Transcriptase Polymerase Chain ReactionChemistryMetabotropic glutamate receptor 5HydrolysisMetabotropic glutamate receptor 6Flow CytometryCell biologyMice Inbred C57BLNeuroprotective AgentsEndocrinologyMetabotropic receptormetabotropic glutamate receptors; tc-1s cells; thymocytesNeurologyMetabotropic glutamate receptorMetabotropic glutamate receptor 1Neurology (clinical)Stromal CellsSignal TransductionJournal of Neuroimmunology
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