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showing 10 items of 31271 documents

Mast cells crosstalk with B cells in the gut and sustain IgA response in the inflamed intestine.

2021

B lymphocytes are among the cell types whose effector functions are modulated by mast cells (MCs). The B/MC crosstalk emerged in several pathological settings, notably the colon of inflammatory bowel disease (IBD) patients is a privileged site in which MCs and IgA+ cells physically interact. Herein, by inducing conditional depletion of MCs in red MC and basophil (RMB) mice, we show that MCs control B cell distribution in the gut and IgA serum levels. Moreover, in dextran sulfate sodium (DSS)-treated RMB mice, the presence of MCs is fundamental for the enlargement of the IgA+ population in the bowel and the increase of systemic IgA production. Since both conventional B-2 and peritoneal-deriv…

0301 basic medicineCell typeColon[SDV]Life Sciences [q-bio]ImmunologyPopulationInflammationBasophilBiologySettore MED/08 - Anatomia Patologicabehavioral disciplines and activitiesInflammatory bowel diseasecell-to-cell interplay colitis IgAinnate-like B cells mast cells03 medical and health sciencesMice0302 clinical medicinemedicineImmunology and AllergyAnimalsMast CellsColitisIntestinal MucosaeducationB cellComputingMilieux_MISCELLANEOUSInflammationeducation.field_of_studyB-LymphocytesTumor Necrosis Factor-alphaDextran Sulfatemedicine.diseaseColitisInflammatory Bowel DiseaseshumanitiesInnate-like B cellsGastrointestinal MicrobiomeImmunoglobulin AMice Inbred C57BLCrosstalk (biology)030104 developmental biologymedicine.anatomical_structureCell-to-cell interplayCell-to-cell interplay; Colitis; IgA; Innate-like B cells; Mast cellsImmunologymedicine.symptomIgA030215 immunologyEuropean journal of immunologyReferences
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A High Throughput Phenotypic Screening reveals compounds that counteract premature osteogenic differentiation of HGPS iPS-derived mesenchymal stem ce…

2016

AbstractHutchinson-Gilford progeria syndrome (HGPS) is a rare fatal genetic disorder that causes systemic accelerated aging in children. Thanks to the pluripotency and self-renewal properties of induced pluripotent stem cells (iPSC), HGPS iPSC-based modeling opens up the possibility of access to different relevant cell types for pharmacological approaches. In this study, 2800 small molecules were explored using high-throughput screening, looking for compounds that could potentially reduce the alkaline phosphatase activity of HGPS mesenchymal stem cells (MSCs) committed into osteogenic differentiation. Results revealed seven compounds that normalized the osteogenic differentiation process an…

0301 basic medicineCell typecongenital hereditary and neonatal diseases and abnormalitiesPhenotypic screeningInduced Pluripotent Stem CellsRetinoic acidTretinoinBiologyArticle03 medical and health scienceschemistry.chemical_compoundProgeriaOsteogenesis[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]medicineHumansInduced pluripotent stem cellChildIsotretinoinGeneticsProgeriaMultidisciplinaryintegumentary systemGuided Tissue RegenerationMesenchymal stem cellnutritional and metabolic diseasesAging PrematureCell DifferentiationMesenchymal Stem Cellsmedicine.diseaseProgerinAlkaline PhosphataseLamin Type A3. Good healthCell biologyHigh-Throughput Screening Assays030104 developmental biologychemistryGene Expression Regulation[ SDV.BBM.GTP ] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Alkaline phosphataseScientific Reports
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Long Term Culture of the A549 Cancer Cell Line Promotes Multilamellar Body Formation and Differentiation towards an Alveolar Type II Pneumocyte Pheno…

2016

Pulmonary research requires models that represent the physiology of alveolar epithelium but concerns with reproducibility, consistency and the technical and ethical challenges of using primary or stem cells has resulted in widespread use of continuous cancer or other immortalized cell lines. The A549 'alveolar' cell line has been available for over four decades but there is an inconsistent view as to its suitability as an appropriate model for primary alveolar type II (ATII) cells. Since most work with A549 cells involves short term culture of proliferating cells, we postulated that culture conditions that reduced proliferation of the cancer cells would promote a more differentiated ATII ce…

0301 basic medicineCellular differentiationCell Culture Techniqueslcsh:MedicineGene ExpressionPolymerase Chain ReactionBiochemistry0302 clinical medicineAnimal ProductsMedicine and Health SciencesCell Cycle and Cell Divisionlcsh:ScienceOligonucleotide Array Sequence Analysiseducation.field_of_studyMultidisciplinaryCell CycleCell DifferentiationAgricultureCell cyclerespiratory systemLipidsCell biologyPhenotypeCell Processes030220 oncology & carcinogenesisStem cellResearch ArticleMeatPopulationBiology03 medical and health sciencesExtraction techniquesMicroscopy Electron TransmissionGeneticsHumansGene RegulationeducationNutritionA549 celllcsh:RBiology and Life SciencesCell BiologyLipid MetabolismRNA extractionHamDietResearch and analysis methods030104 developmental biologyMetabolismGene Expression RegulationCell cultureA549 CellsFoodAlveolar Epithelial CellsCancer celllcsh:QImmortalised cell lineDevelopmental BiologyPloS one
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CRISPR-Cas9 screen reveals a MYCN-amplified neuroblastoma dependency on EZH2.

2018

Pharmacologically difficult targets, such as MYC transcription factors, represent a major challenge in cancer therapy. For the childhood cancer neuroblastoma, amplification of the oncogene MYCN is associated with high-risk disease and poor prognosis. Here, we deployed genome-scale CRISPR-Cas9 screening of MYCN-amplified neuroblastoma and found a preferential dependency on genes encoding the polycomb repressive complex 2 (PRC2) components EZH2, EED, and SUZ12. Genetic and pharmacological suppression of EZH2 inhibited neuroblastoma growth in vitro and in vivo. Moreover, compared with neuroblastomas without MYCN amplification, MYCN-amplified neuroblastomas expressed higher levels of EZH2. ChIP…

0301 basic medicineCellular differentiationMedical and Health SciencesNeuroblastomaSUZ12Oncogene MYCNCRISPR-Cas SystemCancerPediatricNeuronsN-Myc Proto-Oncogene ProteinTumorEZH2EpigeneticCell DifferentiationGeneral MedicineUp-RegulationGene Expression Regulation NeoplasticOncology5.1 PharmaceuticalsEpigeneticsDevelopment of treatments and therapeutic interventionsHumanResearch ArticlePediatric Research InitiativePediatric CancerImmunologymacromolecular substancesBiologyN-Myc Proto-Oncogene ProteinCell Line03 medical and health sciencesRare DiseasesNeuroblastomaCell Line TumormedicineGeneticsHumansEnhancer of Zeste Homolog 2 ProteinTranscription factorneoplasmsNeoplasticHuman GenomeNeurosciencesGene AmplificationNeuronmedicine.disease030104 developmental biologyGene Expression RegulationCancer researchHistone deacetylaseCRISPR-Cas SystemsThe Journal of clinical investigation
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Innate lymphoid cells, precursors and plasticity

2016

Innate lymphoid cells (ILC) have only recently been recognized as a separate entity of the lymphoid lineage. Their subpopulations share common characteristics in terms of early development and major transcriptional circuitry with their related cousins of the T cell world. It is currently hypothesized that ILCs constitute an evolutionary older version of the lymphoid immune system. They are found at all primary entry points for pathogens such as mucosal surfaces of the lung and gastrointestinal system, the skin and the liver, which is the central contact point for pathogens that breach the intestinal barrier and enter the circulation. There, ILC contribute to the first line defense as well a…

0301 basic medicineCellular differentiationT cellCell PlasticityImmunologyBiology03 medical and health sciences0302 clinical medicineImmune systemCell PlasticitymedicineAnimalsHumansImmunology and AllergyCell Lineageskin and connective tissue diseasesPrecursor Cells T-LymphoidRegeneration (biology)Innate lymphoid cellGene Expression Regulation DevelopmentalCell DifferentiationT-Lymphocytes Helper-InducerImmunity InnateLymphocyte Subsetsbody regionsPhenotype030104 developmental biologyLymphatic systemmedicine.anatomical_structureImmunologyStem cellBiomarkersSignal TransductionT-Lymphocytes CytotoxicTranscription Factors030215 immunologyImmunology Letters
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Cell-Autonomous and Non-cell-autonomous Function of Hox Genes Specify Segmental Neuroblast Identity in the Gnathal Region of the Embryonic CNS in Dro…

2016

During central nervous system (CNS) development neural stem cells (Neuroblasts, NBs) have to acquire an identity appropriate to their location. In thoracic and abdominal segments of Drosophila, the expression pattern of Bithorax-Complex Hox genes is known to specify the segmental identity of NBs prior to their delamination from the neuroectoderm. Compared to the thoracic, ground state segmental units in the head region are derived to different degrees, and the precise mechanism of segmental specification of NBs in this region is still unclear. We identified and characterized a set of serially homologous NB-lineages in the gnathal segments and used one of them (NB6-4 lineage) as a model to i…

0301 basic medicineCentral Nervous SystemCancer ResearchEmbryologyGene ExpressionNervous SystemNeural Stem CellsAnimal CellsMedicine and Health SciencesDrosophila ProteinsHox geneGenetics (clinical)Regulation of gene expressionGeneticsNeuronsMembrane GlycoproteinsDrosophila MelanogasterGene Expression Regulation DevelopmentalAnimal ModelsProtein-Tyrosine KinasesNeural stem cellCell biologyInsectsPhenotypesembryonic structuresDrosophilaDrosophila melanogasterAnatomyCellular Structures and OrganellesCellular TypesResearch Articleanimal structuresArthropodalcsh:QH426-470ImmunoglobulinsBiologyAntennapediaResearch and Analysis Methods03 medical and health sciencesModel OrganismsNeuroblastNuclear BodiesCyclin EGeneticsAnimalsGene RegulationCell LineageMolecular BiologyEcology Evolution Behavior and SystematicsLoss functionCell NucleusHomeodomain ProteinsNeuroectodermEmbryosOrganismsBiology and Life SciencesCell Biologybiology.organism_classificationInvertebrateslcsh:Genetics030104 developmental biologyCellular NeuroscienceDevelopmental BiologyNeurosciencePLoS Genetics
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Neurofibromatosis type 2 tumor suppressor protein is expressed in oligodendrocytes and regulates cell proliferation and process formation.

2017

The neurofibromatosis type 2 (NF2) tumor suppressor protein Merlin functions as a negative regulator of cell growth and actin dynamics in different cell types amongst which Schwann cells have been extensively studied. In contrast, the presence and the role of Merlin in oligodendrocytes, the myelin forming cells within the CNS, have not been elucidated. In this work, we demonstrate that Merlin immunoreactivity was broadly distributed in the white matter throughout the central nervous system. Following Merlin expression during development in the cerebellum, Merlin could be detected in the cerebellar white matter tract at early postnatal stages as shown by its co-localization with Olig2-positi…

0301 basic medicineCentral Nervous SystemCytoplasmlcsh:MedicineNervous SystemMyelinMiceCell MovementAnimal CellsCerebellumMedicine and Health SciencesNeurofibromatosis type 2lcsh:ScienceNeuronsStainingCerebral CortexNeurofibromin 2MultidisciplinarybiologyCell StainingBrainCell migrationCell biologyOligodendrogliamedicine.anatomical_structureGenetic DiseasesCell ProcessesAnatomyCellular TypesCellular Structures and OrganellesResearch ArticleCell typeNeurofibromatosis 2NeurogenesisNerve Tissue ProteinsTransfectionResearch and Analysis MethodsCell Line03 medical and health sciencesmedicineAnimalsImmunohistochemistry TechniquesCell ProliferationCell NucleusClinical GeneticsCell growthAutosomal Dominant Diseaseslcsh:RBiology and Life SciencesCell Biologymedicine.diseaseOligodendrocyteMyelin basic proteinMerlin (protein)Mice Inbred C57BLHistochemistry and Cytochemistry Techniques030104 developmental biologySpecimen Preparation and TreatmentAstrocytesNeurofibromatosis Type 2Cellular Neurosciencebiology.proteinImmunologic Techniqueslcsh:QSchwann CellsNeurosciencePLoS ONE
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Progressive derivation of serially homologous neuroblast lineages in the gnathal CNS of Drosophila

2018

Along the anterior-posterior axis the central nervous system is subdivided into segmental units (neuromeres) the composition of which is adapted to their region-specific functional requirements. In Drosophila melanogaster each neuromere is formed by a specific set of identified neural stem cells (neuroblasts, NBs). In the thoracic and anterior abdominal region of the embryonic ventral nerve cord segmental sets of NBs resemble the ground state (2nd thoracic segment, which does not require input of homeotic genes), and serial (segmental) homologs generate similar types of lineages. The three gnathal head segments form a transitional zone between the brain and the ventral nerve cord. It has be…

0301 basic medicineCentral Nervous SystemEmbryologylcsh:MedicineSerial homologyGene ExpressionNervous SystemAnimal CellsMedicine and Health SciencesBrainbow Labelinglcsh:ScienceNeuronsBrain MappingMultidisciplinarybiologyAnatomyNeuromereNeural stem cellChemistryPhysical SciencesDrosophilaDrosophila melanogasterAnatomyCellular TypesHomeotic geneResearch ArticleLineage (genetic)Imaging TechniquesNeuroimagingResearch and Analysis MethodsComposite Images03 medical and health sciencesNeuroblastInterneuronsGeneticsAnimalsCell LineageMolecular Biology TechniquesMolecular BiologyGround Statelcsh:REmbryosBiology and Life SciencesCell BiologyQuantum Chemistrybiology.organism_classification030104 developmental biologyVentral nerve cordCellular Neurosciencelcsh:QCloningNeuroscienceDevelopmental BiologyPLoS ONE
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Gene expression profiles uncover individual identities of gnathal neuroblasts and serial homologies in the embryonic CNS of Drosophila.

2015

The numbers and types of progeny cells generated by neural stem cells in the developing CNS are adapted to its region-specific functional requirements. In Drosophila, segmental units of the CNS develop from well-defined patterns of neuroblasts. Here we constructed comprehensive neuroblast maps for the three gnathal head segments. Based on the spatiotemporal pattern of neuroblast formation and the expression profiles of 46 marker genes (41 transcription factors), each neuroblast can be uniquely identified. Compared with the thoracic ground state, neuroblast numbers are progressively reduced in labial, maxillary and mandibular segments due to smaller sizes of neuroectodermal anlagen and, part…

0301 basic medicineCentral Nervous SystemGenetic Markersanimal structuresSerial homologyCell CountGenes InsectBiology03 medical and health sciences0302 clinical medicineNeuroblastNeural Stem CellsNeuroblastsAbdomenAnimalsCell LineageHox geneMolecular Biologyreproductive and urinary physiologyfungiAnatomyThoraxGene expression profileNeuromereStem Cells and RegenerationEmbryonic stem cellNeural stem cellCell biology103Segmental patterning030104 developmental biologyDrosophila melanogasternervous systemVentral nerve cordDrosophila brainembryonic structuresDeformedTranscriptomeGanglion mother cell030217 neurology & neurosurgeryDevelopmental BiologyDevelopment (Cambridge, England)
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Opposing Effects of CREBBP Mutations Govern the Phenotype of Rubinstein-Taybi Syndrome and Adult SHH Medulloblastoma

2018

Recurrent mutations in chromatin modifiers are specifically prevalent in adolescent or adult patients with Sonic hedgehog-associated medulloblastoma (SHH MB). Here, we report that mutations in the acetyltransferase CREBBP have opposing effects during the development of the cerebellum, the primary site of origin of SHH MB. Our data reveal that loss of Crebbp in cerebellar granule neuron progenitors (GNPs) during embryonic development of mice compromises GNP development, in part by downregulation of brain-derived neurotrophic factor (Bdnf). Interestingly, concomitant cerebellar hypoplasia was also observed in patients with Rubinstein-Taybi syndrome, a congenital disorder caused by germline mu…

0301 basic medicineCerebellumCrebbp protein mousemetabolism [Cerebellar Neoplasms]acetyltransferase; cerebellum; CREBBP; development; Rubinstein-Taybi syndrome; SHH medulloblastomagenetics [Hedgehog Proteins]MiceNeurotrophic factorsmetabolism [CREB-Binding Protein]Mice KnockoutNeuronsRubinstein-Taybi Syndromepathology [Rubinstein-Taybi Syndrome]CREBBPCREB-Binding ProteinPhenotypegenetics [CREB-Binding Protein]3. Good healthpathology [Cerebellar Neoplasms]acetyltransferasePhenotypemedicine.anatomical_structuregenetics [Rubinstein-Taybi Syndrome]Femalemetabolism [Hedgehog Proteins]Signal TransductionSHH medulloblastomaAdultcerebellumBiologyGeneral Biochemistry Genetics and Molecular BiologyCREBBP; Rubinstein-Taybi syndrome; SHH medulloblastoma; acetyltransferase; cerebellum; development.03 medical and health sciencesGermline mutationAcetyltransferasesmetabolism [Medulloblastoma]medicineAnimalsHumansgenetics [Cerebellar Neoplasms]Hedgehog Proteinsddc:610Cerebellar NeoplasmsdevelopmentMolecular BiologyMedulloblastomaRubinstein–Taybi syndromegenetics [Medulloblastoma]metabolism [Rubinstein-Taybi Syndrome]pathology [Medulloblastoma]Cell Biologymedicine.disease030104 developmental biologyMutationphysiology [CREB-Binding Protein]Cancer researchSHH protein humanCerebellar hypoplasia (non-human)metabolism [Acetyltransferases]CREBBP protein humanMedulloblastomaDevelopmental BiologyCongenital disorderDevelopmental Cell
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