Search results for "Cell Plasticity"

showing 6 items of 6 documents

Exosomes from metastatic cancer cells transfer amoeboid phenotype to non-metastatic cells and increase endothelial permeability: their emerging role …

2017

AbstractThe goal of this study was to understand if exosomes derived from high-metastatic cells may influence the behavior of less aggressive cancer cells and the properties of the endothelium. We found that metastatic colon cancer cells are able to transfer their amoeboid phenotype to isogenic primary cancer cells through exosomes, and that this morphological transition is associated with the acquisition of a more aggressive behavior. Moreover, exosomes from the metastatic line (SW620Exos) exhibited higher ability to cause endothelial hyperpermeability than exosomes from the non metastatic line (SW480Exos). SWATH-based quantitative proteomic analysis highlighted that SW620Exos are signific…

Proteomics0301 basic medicineRHOAEndotheliummetastatic cancer cellScienceCell PlasticityContext (language use)ExosomesArticlePermeability03 medical and health sciences0302 clinical medicineSettore BIO/13 - Biologia ApplicataCell Line Tumormetastatic cancer cells; Exosomes; tumor heterogeneitytumor heterogeneityHuman Umbilical Vein Endothelial CellsmedicineHumansEndotheliumrho-Associated KinasesMultidisciplinarybiologyQThrombinRPhenotypeMicrovesicles3. Good healthCell biologyEndothelial stem cellExosomePhenotype030104 developmental biologymedicine.anatomical_structureTumor progression030220 oncology & carcinogenesisColonic NeoplasmsCancer cellbiology.proteinMedicinerhoA GTP-Binding ProteinSignal Transduction
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Immunotherapy With Human Gamma Delta T Cells—Synergistic Potential of Epigenetic Drugs?

2018

Epigenetics has emerged as one of the fastest growing concepts, adding more than 45 new publications every day, spreading through various fields ( 1). Conrad Waddington coined the term “epigenetics” in 1942; however, a multitude of definitions has been endorsed by different researchers. In essence, Waddington’s definition of “epigenetics” and its redefinition by Holiday is at the heart of cellular function. Hence, it is obvious that epigenetic regulation plays a central role also in the specification, differentiation, and functional plasticity of T lymphocytes ( 2). T-cell fate decision in progenitor cells, functional CD4 T-cell plasticity, CD8 T-cell differentiation, but also T-cell memory…

Checkpoint Inhibitorslcsh:Immunologic diseases. Allergy0301 basic medicineDeltaOpinionmedicine.medical_treatmentImmune checkpoint inhibitorsCell PlasticityImmunologyNatural-killer Group 2 Member DBiologyEpigenesis Genetic03 medical and health sciencesCell Plasticitymedicineddc:6AnimalsHumansgamma delta T cellsImmunology and Allergyddc:610EpigeneticsIntraepithelial Lymphocytesprogrammed death 1DNA methylationnatural-killer group 2 member DProgrammed Death 1articlehistone acetylationGamma Delta T CellsImmunotherapy030104 developmental biologyHistone acetylationDNA methylationCancer researchIntraepithelial lymphocyteBromodomain And Extraterminal DomainBromodomain and ExtraTerminal domainImmunotherapyimmunotherapyProgrammed death 1lcsh:RC581-607checkpoint inhibitorsFrontiers in Immunology
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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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The Phenotypic Plasticity of Duplicated Genes in Saccharomyces cerevisiae and the Origin of Adaptations

2016

Gene and genome duplication are the major sources of biological innovations in plants and animals. Functional and transcriptional divergence between the copies after gene duplication has been considered the main driver of innovations . However, here we show that increased phenotypic plasticity after duplication plays a more major role than thought before in the origin of adaptations. We perform an exhaustive analysis of the transcriptional alterations of duplicated genes in the unicellular eukaryote Saccharomyces cerevisiae when challenged with five different environmental stresses. Analysis of the transcriptomes of yeast shows that gene duplication increases the transcriptional response to…

0301 basic medicineCell PlasticityEvolutionary biologySaccharomyces cerevisiaeQH426-470InvestigationsBiologyGenomeEvolution MolecularTranscriptome03 medical and health sciencesEvolution by gene duplicationGene DuplicationGene duplicationGeneticsAnimalsSelection GeneticTranscriptional profilesMolecular BiologyGenePhylogenyGenetics (clinical)GeneticsPhenotypic plasticityModels GeneticPlantsAdaptation Physiological030104 developmental biologyWhole-genome duplicatesSubfunctionalizationGenome FungalAdaptationGene functionSmall-scale duplicates
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The close link between the fetal programming imprinting and neurodegeneration in adulthood: The key role of “hemogenic endothelium” programming

2021

The research on neurodegenerative diseases (NeuroDegD) has been traditionally focused on later life stages. There is now an increasing evidence, that they may be programmed during early development. Here, we propose that NeuroDegD are the result of the complex process of imprinting on fetal hemogenic endothelium, from which the microglial cells make to origin. The central role of placenta and epigenetic mechanisms (methylation of DNA, histone modifications and regulation by non-coding RNAs) in mediating the short and long-term effects has been also described. Precisely, it reports their role in impacting plasticity and memory of microglial cells. In addition, we also underline the necessity…

0301 basic medicineAgingHemangioblastsCell PlasticityRisk AssessmentEpigenesis GeneticFetal DevelopmentMolecular Imprinting03 medical and health sciences0302 clinical medicineEpigenetic factors as biomarkers Sex dimorphism Fetal developmental programming Hemogenic endothelium Microglia plasticity and memory Neurodegenerative diseasesmedicineHumansSettore MED/05 - Patologia ClinicaEpigeneticsFetal programmingImprinting (organizational theory)Hemogenic endotheliumSex CharacteristicsBiological Variation Individualbiologybusiness.industryNeurodegenerationGene Expression Regulation DevelopmentalNeurodegenerative Diseasesmedicine.diseaseLife stage030104 developmental biologyHistonePrenatal stressbiology.proteinMicrogliabusinessNeuroscienceBiomarkers030217 neurology & neurosurgeryDevelopmental BiologyMechanisms of Ageing and Development
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Cellular Plasticity in the Adult Murine Piriform Cortex: Continuous Maturation of Dormant Precursors Into Excitatory Neurons

2017

Neurogenesis in the healthy adult murine brain is based on proliferation and integration of stem/progenitor cells and is thought to be restricted to 2 neurogenic niches: the subventricular zone and the dentate gyrus. Intriguingly, cells expressing the immature neuronal marker doublecortin (DCX) and the polysialylated-neural cell adhesion molecule reside in layer II of the piriform cortex. Apparently, these cells progressively disappear along the course of ageing, while their fate and function remain unclear. Using DCX-CreERT2/Flox-EGFP transgenic mice, we demonstrate that these immature neurons located in the murine piriform cortex do not vanish in the course of aging, but progressively res…

Doublecortin Domain Proteins0301 basic medicineDoublecortin ProteinCognitive NeuroscienceCell PlasticityGreen Fluorescent ProteinsSubventricular zoneMice TransgenicNerve Tissue ProteinsNeural Cell Adhesion Molecule L1Piriform CortexBiologyMice03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineCortex (anatomy)Piriform cortexNeuroplasticitymedicineAnimalsNeuronsGlutamate DecarboxylaseStem CellsDentate gyrusNeuropeptidesNeurogenesisGene Expression Regulation DevelopmentalEmbryo MammalianCell biologyDoublecortinMice Inbred C57BL030104 developmental biologymedicine.anatomical_structureBromodeoxyuridinenervous systemSialic Acidsbiology.proteinTBR1Calcium-Calmodulin-Dependent Protein Kinase Type 2Microtubule-Associated Proteins030217 neurology & neurosurgeryCerebral Cortex
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