Search results for " STEM CELLS"

showing 10 items of 881 documents

Stress response in mesoangioblast stem cells

2006

Stem cells are presumed to survive various stresses, since they are recruited to areas of tissue damage and regeneration, where inflammatory cytokines and cytotoxic cells may result in severe cell injury. We explored the ability of mesoangioblasts to respond to different cell stresses such as heat, heavy metals and osmotic stress, by analyzing heat shock protein (HSP)70 synthesis as a stress indicator. We found that the A6 mesoangioblast stem cells constitutively synthesize HSP70 in a heat shock transcription factor (HSF)-independent way. However, A6 respond to heat shock and cadmium treatment by synthesizing HSP70 over the constitutive expression and this synthesis is HSF1 dependent. The e…

Chloramphenicol O-AcetyltransferaseHot TemperatureOsmotic shockRecombinant Fusion ProteinsBlotting WesternHypertonic SolutionsElectrophoretic Mobility Shift AssayBiologyResponse ElementsTransfectionMesodermMiceSTRESS RESPONSE STEM CELLS MOUSE MESOANGIOBLASTS.Heat Shock Transcription FactorsHeat shock proteinMetals HeavyAnimalsRNA MessengerHSF1Promoter Regions GeneticMolecular BiologyCells CulturedMesoangioblastHSC70 Heat-Shock ProteinsCell BiologyTransfectionHematopoietic Stem CellsMolecular biologyCell biologyHsp70Heat shock factorDNA-Binding ProteinsGene Expression RegulationStem cellTranscription Factors
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Reverse engineering a mouse embryonic stem cell-specific transcriptional network reveals a new modulator of neuronal differentiation

2012

Gene expression profiles can be used to infer previously unknown transcriptional regulatory interaction among thousands of genes, via systems biology 'reverse engineering' approaches. We 'reverse engineered' an embryonic stem (ES)-specific transcriptional network from 171 gene expression profiles, measured in ES cells, to identify master regulators of gene expression ('hubs'). We discovered that E130012A19Rik (E13), highly expressed in mouse ES cells as compared with differentiated cells, was a central 'hub' of the network. We demonstrated that E13 is a protein-coding gene implicated in regulating the commitment towards the different neuronal subtypes and glia cells. The overexpression and …

Chromosomal Proteins Non-HistoneCellular differentiationNeurogenesisNerve Tissue ProteinsBiologyCell LineMiceGene expressionProtein Interaction MappingGeneticsTranscriptional regulationmedicineAnimalsGene Regulatory NetworksTransgenesEmbryonic Stem CellsGene Expression ProfilingSystems BiologyNeurogenesisBrainComputational BiologyEmbryonic stem cellCell biologyGene expression profilingmedicine.anatomical_structurenervous systemNeuron differentiationNeurogliaTranscriptome
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Therapeutic implications of Cancer Initiating Cells.

2009

Background: Until few years ago, all neoplastic cells within a tumour were suggested to have tumorigenic capacity, but recent evidences hint to the possibility that such feature is confined to a subset of Cancer Initiating Cells (CICs), also called Cancer Stem Cells (CSCs). These cells are the reservoir of the heterogeneous populations of differentiated cancer cells constituting the tumour bulk. Mechanisms shared with somatic stem cells, such as quiescence, self-renewal ability, asymmetric division and multidrug resistance, allow to these cells to drive tumour growth and to evade conventional therapy. Objective: Here, we give a brief overview on the origin of CICs, the mechanisms involved i…

Clinical BiochemistryCellPopulationCell- and Tissue-Based TherapyApoptosisBiologymedicine.disease_causeMedical OncologyDisease-Free SurvivalMiceCancer stem cellAntigens CDNeoplasmsDrug DiscoverymedicineAnimalsHumansAC133 AntigenNeoplasm MetastasiseducationInterleukin 4GlycoproteinsPharmacologyeducation.field_of_studyCancermedicine.diseasemedicine.anatomical_structureCell Transformation NeoplasticDrug Resistance NeoplasmImmunologyCancer cellCancer researchNeoplastic Stem Cellscancer initiating cells cancer stem cells drug resistance IL-4CarcinogenesisPeptidesNeoplasm TransplantationAdult stem cellExpert opinion on biological therapy
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Changing paradigm in mild traumatic brain injury research

2016

Traumatic brain injury (TBI) is a major cause of death and disability among young adults. Recent data show that TBI affects about 1.7 million people annually in the United States (Faul and Coronado, 2015). After TBI, the primary injury produces almost irreparable brain damage. However, recent experimental studies have shown evidence for dynamic brain repair following TBI because endogenous progenitor cells may play regenerative roles in response to injuries (McGinn and Povlishock, 2015). In surviving patients, what plays a critical role in the clinical prognosis is the subsequent secondary injury; without effective treat- ment, cascades that include glutamatergic excitotoxicity and calcium …

Clinical Trials as TopicBiomedical ResearchNeural Stem CellsSettore MED/27 - NeurochirurgiaCell MembraneAnimalsHumansBrain ConcussionTrigeminal neuralgiaChronic Traumatic Encephalopathy
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Possible clinical usefulness of embryonic stem cells

2012

Abstract Are embryonic stem cells being used for therapeutic purposes? The aim of this short report is to review to what extent are embryonic stem cells currently used for therapeutic purposes. To the best of our knowledge, only four clinical trials have been authorised so far to use human embryonic stem cells for therapeutic purposes; two of these are included in the ClinicalTrials.gov data base, and the other two, the study sponsored by Geron and the last one initiated by Advanced Cell Technology in the United Kingdom, are not. But, in addition, Geron withdrew the clinical trial which had been originally proposed by the company itself. This brief review focuses the debate on the use of em…

Clinical Trials as Topicmedicine.medical_specialtybusiness.industryGeneral MedicineHuman cellStem Cell ResearchCell technologyEmbryonic stem cellUnited StatesClinical trialMacular DegenerationHumansmedia_common.cataloged_instanceMedicineEuropean UnionEuropean unionbusinessIntensive care medicineEmbryonic Stem Cellsmedia_commonRevista Clínica Española
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New emerging potentials for human Wharton's jelly mesenchymal stem cells: immunological features and hepatocyte-like differentiative capacity.

2010

In recent years, human mesenchymal stem cells (MSC) have been extensively studied. Their key characteristics of long-term self-renewal and a capacity to differentiate into diverse mature tissues favour their use in regenerative medicine applications. Stem cells can be found in embryonic and extra-embryonic tissues as well as in adult organs. Several reports indicate that cells of Wharton's jelly (WJ), the main component of umbilical cord extracellular matrix, are multipotent stem cells, expressing markers of bone marrow mesenchymal stem cells (BM-MSC), and giving rise to different cellular types of both connective and nervous tissues. Wharton's jelly mesenchymal stem cells (WJ-MSC) express …

Clinical uses of mesenchymal stem cellsBone Marrow CellsBiologyRegenerative MedicineUmbilical CordImmunomodulationMesodermWharton's jellyAnimalsHumansCell LineageStem cell transplantation for articular cartilage repairCell ProliferationSettore BIO/16 - Anatomia UmanaMultipotent Stem CellsMesenchymal stem cellEndodermCell DifferentiationMesenchymal Stem CellsCell BiologyHematologyCell biologyExtracellular MatrixMultipotent Stem CellAmniotic epithelial cellsImmunologyHepatocytesmesenchymal stem cells umbilical cord Wharton's jelly differentiation hepatocyteStem cellBiomarkersDevelopmental BiologyAdult stem cellStem cells and development
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Dynamic Changes in the Neurogenic Potential in the Ventricular–Subventricular Zone of Common Marmoset during Postnatal Brain Development

2020

AbstractEven after birth, neuronal production continues in the ventricular–subventricular zone (V–SVZ) and hippocampus in many mammals. The immature new neurons (“neuroblasts”) migrate and then mature at their final destination. In humans, neuroblast production and migration toward the neocortex and the olfactory bulb (OB) occur actively only for a few months after birth and then sharply decline with age. However, the precise spatiotemporal profiles and fates of postnatally born neurons remain unclear due to methodological limitations. We previously found that common marmosets, small nonhuman primates, share many features of V–SVZ organization with humans. Here, using marmosets injected wit…

Cognitive NeuroscienceNeurogenesisPopulationSubventricular zoneNeocortexnonhuman primateventricular–subventricular zoneBiologyHippocampusCerebral Ventriclescommon marmoset03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineSpatio-Temporal AnalysisNeuroblastNeural Stem CellsCell MovementNeuroblast migrationLateral VentriclesmedicineAnimalsdentate gyruseducation030304 developmental biologyCell Proliferation0303 health scienceseducation.field_of_studyNeocortexDentate gyrusNeurogenesisBrainCallithrixpostnatal neurogenesisOlfactory BulbOlfactory bulbmedicine.anatomical_structurenervous systemNeuroscience030217 neurology & neurosurgery
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TOWARDS COLORECTAL CANCER STEM CELLS TARGETING: INVESTIGATING GENETIC AND EPIGENETIC LANDSCAPE

2022

Colorectal cancer Cancer stem cells Epigenetic alterations Therapeutic strategies
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Proliferation state and polo-like kinase1 dependence of tumorigenic colon cancer cells.

2012

Abstract Tumor-initiating cells are responsible for tumor maintenance and relapse in solid and hematologic cancers. Although tumor-initiating cells were initially believed to be mainly quiescent, rapidly proliferating tumorigenic cells were found in breast cancer. In colon cancer, the proliferative activity of the tumorigenic population has not been defined, although it represents an essential parameter for the development of more effective therapeutic strategies. Here, we show that tumorigenic colon cancer cells can be found in a rapidly proliferating state in vitro and in vivo, both in human tumors and mouse xenografts. Inhibitors of polo-like kinase1 (Plk1), a mitotic kinase essential fo…

Colorectal cancerCancer stem cellscolorectal cancercell proliferationcell cycle.Cell Cycle ProteinsMice0302 clinical medicineMice Inbred NODAC133 AntigenRNA Small Interfering0303 health scienceseducation.field_of_studyPteridinesCell CycleCell cycleImmunohistochemistry3. Good healthMitochondriaGene Expression Regulation Neoplastic030220 oncology & carcinogenesisColonic NeoplasmsMolecular MedicineFemaleStem cellPopulationTransplantation HeterologousCell Growth ProcessesBiologyProtein Serine-Threonine KinasesPLK103 medical and health sciencesCancer stem cellAntigens CDCell Line TumorProto-Oncogene ProteinsmedicineAnimalsHumanseducationProtein Kinase Inhibitors030304 developmental biologyGlycoproteinsSettore MED/04 - Patologia GeneraleCell growthCell Biologymedicine.diseaseTumor progressionImmunologyCancer researchPeptidesDevelopmental BiologyStem cells (Dayton, Ohio)
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Dynamic regulation of the cancer stem cell compartment by Cripto-1 in colorectal cancer.

2015

Stemness was recently depicted as a dynamic condition in normal and tumor cells. We found that the embryonic protein Cripto-1 (CR1) was expressed by normal stem cells at the bottom of colonic crypts and by cancer stem cells (CSCs) in colorectal tumor tissues. CR1-positive populations isolated from patient-derived tumor spheroids exhibited increased clonogenic capacity and expression of stem-cell-related genes. CR1 expression in tumor spheroids was variable over time, being subject to a complex regulation of the intracellular, surface and secreted protein, which was related to changes of the clonogenic capacity at the population level. CR1 silencing induced CSC growth arrest in vitro with a …

Colorectal cancerColorectal NeoplasmCriptoMiceIntercellular Signaling Peptides and ProteinTumor Cells CulturedRegulation of gene expressionCulturedstem cell; CRIPTO 1GPI-Linked ProteinCell biologyNeoplasm ProteinsTumor CellsGene Expression Regulation NeoplasticGenes srcNeoplastic Stem CellsIntercellular Signaling Peptides and ProteinsFemaleStem cellColorectal NeoplasmsHumanSignal Transductioncolorectal cancerBiologyGPI-Linked ProteinsAnimals; Colorectal Neoplasms; Female; GPI-Linked Proteins; Gene Expression Regulation Neoplastic; Genes src; Humans; Intercellular Signaling Peptides and Proteins; Mice; Neoplasm Proteins; Neoplastic Stem Cells; Proto-Oncogene Proteins c-akt; Signal Transduction; Spheroids Cellular; Tumor Cells Cultured; Cell Biology; Molecular BiologyNeoplasm ProteinCancer stem cellSettore MED/04 - PATOLOGIA GENERALESpheroids CellularmedicineGene silencingAnimalsHumansClonogenic assayProtein kinase BMolecular BiologysrcOriginal PaperNeoplasticAnimalCell Biologymedicine.diseaseGene Expression RegulationGenesNeoplastic Stem CellCellularSpheroidsanimals; colorectal neoplasms; female; GPI-linked proteins; gene expression regulation; neoplastic; genes src; humans; intercellular signaling peptides and proteins; mice; neoplasm proteins; neoplastic stem cells; proto-oncogene proteins c-akt; signal transduction; spheroids; cellular; tumor cells; culturedAnimals; Colorectal Neoplasms; Female; GPI-Linked Proteins; Gene Expression Regulation Neoplastic; Genes src; Humans; Intercellular Signaling Peptides and Proteins; Mice; Neoplasm Proteins; Neoplastic Stem Cells; Proto-Oncogene Proteins c-akt; Signal Transduction; Spheroids Cellular; Tumor Cells Cultured; Molecular Biology; Cell BiologyProto-Oncogene Proteins c-akt
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