Search results for "Cellular Reprogramming"

showing 10 items of 34 documents

Mitochondrial dynamics and metabolism in induced pluripotency.

2020

Somatic cells can be reprogrammed to pluripotency by either ectopic expression of defined factors or exposure to chemical cocktails. During reprogramming, somatic cells undergo dramatic changes in a wide range of cellular processes, such as metabolism, mitochondrial morphology and function, cell signaling pathways or immortalization. Regulation of these processes during cell reprograming lead to the acquisition of a pluripotent state, which enables indefinite propagation by symmetrical self-renewal without losing the ability of reprogrammed cells to differentiate into all cell types of the adult. In this review, recent data from different laboratories showing how these processes are control…

0301 basic medicineAdultAgingCell typeSomatic cellCellInduced Pluripotent Stem CellsBiologyBiochemistryMitochondrial Dynamics03 medical and health sciences0302 clinical medicineEndocrinologyGeneticsmedicineHumansInduced pluripotent stem cellMolecular BiologyCell DifferentiationCell BiologyCellular ReprogrammingPhenotypeCell biology030104 developmental biologymedicine.anatomical_structureEctopic expressionReprogramming030217 neurology & neurosurgeryFunction (biology)Signal TransductionExperimental gerontology
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Trabectedin Overrides Osteosarcoma Differentiative Block and Reprograms the Tumor Immune Environment Enabling Effective Combination with Immune Check…

2016

Abstract Purpose: Osteosarcoma, the most common primary bone tumor, is characterized by an aggressive behavior with high tendency to develop lung metastases as well as by multiple genetic aberrations that have hindered the development of targeted therapies. New therapeutic approaches are urgently needed; however, novel combinations with immunotherapies and checkpoint inhibitors require suitable preclinical models with intact immune systems to be properly tested. Experimental Design: We have developed immunocompetent osteosarcoma models that grow orthotopically in the bone and spontaneously metastasize to the lungs, mimicking human osteosarcoma. These models have been used to test the effica…

0301 basic medicineCancer ResearchLung Neoplasmsmedicine.medical_treatmentCellular differentiationT-LymphocytesProgrammed Cell Death 1 ReceptorBone NeoplasmsCore Binding Factor Alpha 1 SubunitDioxolesBiology03 medical and health sciences0302 clinical medicineImmune systemCell Line TumorTetrahydroisoquinolinesmedicineTumor MicroenvironmentHumansTrabectedinTumor microenvironmentOsteosarcomaCancerCell DifferentiationImmunotherapymedicine.diseaseCellular ReprogrammingPrimary tumor030104 developmental biologyOncology030220 oncology & carcinogenesisImmunologyCancer researchOsteosarcomaImmunotherapyOsteosarcoma Trabectedin tumor mouse models immune cells immune checkpoint inhibitors.Tumor Suppressor Protein p53medicine.drugTrabectedinClinical cancer research : an official journal of the American Association for Cancer Research
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MYC-driven epigenetic reprogramming favors the onset of tumorigenesis by inducing a stem cell-like state

2018

Breast cancer consists of highly heterogeneous tumors, whose cell of origin and driver oncogenes are difficult to be uniquely defined. Here we report that MYC acts as tumor reprogramming factor in mammary epithelial cells by inducing an alternative epigenetic program, which triggers loss of cell identity and activation of oncogenic pathways. Overexpression of MYC induces transcriptional repression of lineage-specifying transcription factors, causing decommissioning of luminal-specific enhancers. MYC-driven dedifferentiation supports the onset of a stem cell-like state by inducing the activation of de novo enhancers, which drive the transcriptional activation of oncogenic pathways. Furthermo…

0301 basic medicineCarcinogenesisScienceGeneral Physics and AstronomyBreast NeoplasmsMice SCIDTumor initiationBiologyBreast cancer MYC Tumorigenesismedicine.disease_causeArticleGeneral Biochemistry Genetics and Molecular BiologyEpigenesis GeneticProto-Oncogene Proteins c-mycMice03 medical and health sciencesCell Line TumormedicineAnimalsHumansEpigeneticslcsh:ScienceEnhancerTranscription factorRegulation of gene expressionMultidisciplinaryQGeneral ChemistryCellular ReprogrammingCell biologyGene Expression Regulation NeoplasticEnhancer Elements Genetic030104 developmental biologyNeoplastic Stem CellsFemalelcsh:QStem cellCarcinogenesisReprogramming
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MYC Induces a Hybrid Energetics Program Early in Cell Reprogramming

2018

Summary Cell reprogramming is thought to be associated with a full metabolic switch from an oxidative- to a glycolytic-based metabolism. However, neither the dynamics nor the factors controlling this metabolic switch are fully understood. By using cellular, biochemical, protein array, metabolomic, and respirometry analyses, we found that c-MYC establishes a robust bivalent energetics program early in cell reprogramming. Cells prone to undergo reprogramming exhibit high mitochondrial membrane potential and display a hybrid metabolism. We conclude that MYC proteins orchestrate a rewiring of somatic cell metabolism early in cell reprogramming, whereby somatic cells acquire the phenotypic plast…

0301 basic medicineCell signalingSomatic cellCèl·lulesCellOxidative phosphorylationcell reprogramming cell signaling metabolism mitochondrial dynamicsBiologyHybrid CellsBiochemistryMitochondrial DynamicsArticleOxidative PhosphorylationMitocondrisProto-Oncogene Proteins c-myc03 medical and health sciencesMetabolomicsCDC2 Protein KinaseGeneticsmedicinecell signalingAnimalsHumansGlycolysisPhosphorylationlcsh:QH301-705.5Membrane potentialMembrane Potential Mitochondriallcsh:R5-920cell reprogrammingCell BiologyCellular ReprogrammingCell biologyMitochondriaMice Inbred C57BL030104 developmental biologymedicine.anatomical_structurelcsh:Biology (General)lcsh:Medicine (General)ReprogrammingmetabolismGlycolysisDevelopmental Biology
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Early ERK1/2 activation promotes DRP1-dependent mitochondrial fission necessary for cell reprogramming.

2016

During the process of reprogramming to induced pluripotent stem (iPS) cells, somatic cells switch from oxidative to glycolytic metabolism, a transition associated with profound mitochondrial reorganization. Neither the importance of mitochondrial remodelling for cell reprogramming, nor the molecular mechanisms controlling this process are well understood. Here, we show that an early wave of mitochondrial fragmentation occurs upon expression of reprogramming factors. Reprogramming-induced mitochondrial fission is associated with a minor decrease in mitochondrial mass but not with mitophagy. The pro-fission factor Drp1 is phosphorylated early in reprogramming, and its knockdown and inhibition…

0301 basic medicineDynaminsSomatic cellMAP Kinase Signaling SystemScienceCèl·lulesCellInduced Pluripotent Stem CellsKruppel-Like Transcription FactorsGeneral Physics and AstronomyBiologyMitochondrionMitochondrial DynamicsGeneral Biochemistry Genetics and Molecular BiologyMitocondrisArticleCell LineProto-Oncogene Proteins c-myc03 medical and health sciencesKruppel-Like Factor 4MiceMitophagymedicineAnimalsPhosphorylationInduced pluripotent stem cellGeneticsMultidisciplinarySOXB1 Transcription FactorsQGeneral ChemistryCellular ReprogrammingCell biologyMitochondria030104 developmental biologymedicine.anatomical_structurePhosphorylationMitochondrial fissionReprogrammingOctamer Transcription Factor-3Nature communications
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Identification and Successful Negotiation of a Metabolic Checkpoint in Direct Neuronal Reprogramming

2016

Despite the widespread interest in direct neuronal reprogramming, the mechanisms underpinning fate conversion remain largely unknown. Our study revealed a critical time point after which cells either successfully convert into neurons or succumb to cell death. Co-transduction with Bcl-2 greatly improved negotiation of this critical point by faster neuronal differentiation. Surprisingly, mutants with reduced or no affinity for Bax demonstrated that Bcl-2 exerts this effect by an apoptosis-independent mechanism. Consistent with a caspase-independent role, ferroptosis inhibitors potently increased neuronal reprogramming by inhibiting lipid peroxidation occurring during fate conversion. Genome-w…

0301 basic medicineGeneticsProgrammed cell deathCell typeCellular Reprogramming TechniquesMutantCell BiologyBiologyIn vitroCell biology03 medical and health sciencesTransduction (genetics)030104 developmental biologyIn vivoGeneticsMolecular MedicineReprogrammingCell Stem Cell
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Silencing of hepatic fate-conversion factors induce tumorigenesis in reprogrammed hepatic progenitor-like cells

2016

Abstract Background Several studies have reported the direct conversion of mouse fibroblasts to hepatocyte-like cells with different degrees of maturation by expression of hepatic fate-conversion factors. Methods We have used a combination of lentiviral vectors expressing hepatic fate-conversion factors with Oct4, Sox2, Klf4, and Myc to convert mouse embryonic fibroblasts into hepatic cells. Results We have generated hepatic cells with progenitor-like features (iHepL cells). iHepL cells displayed basic hepatocyte functions but failed to perform functions characteristic of mature hepatocytes such as significant Cyp450 or urea cycle activities. iHepL cells expressed multiple hepatic-specific …

0301 basic medicineMaleCarcinogenesisCellular differentiationMedicine (miscellaneous)Gene ExpressionReceptors G-Protein-CoupledMiceMice Inbred NODHepatocyteTransgenesStem CellsTeratomaCell DifferentiationForkhead Transcription FactorsCellular ReprogrammingCell biologyKLF4Molecular MedicineStem cellReprogrammingDirect reprogrammingGenetic VectorsKruppel-Like Transcription FactorsBiologyBiochemistry Genetics and Molecular Biology (miscellaneous)Proto-Oncogene Proteins c-myc03 medical and health sciencesKruppel-Like Factor 4SOX2AnimalsHepatectomyGene SilencingProgenitor cellResearchXenograftSOXB1 Transcription FactorsLentivirusCD24 AntigenCell BiologyFibroblastsEmbryo MammalianEmbryonic stem cell030104 developmental biologyTumorigenesisHepatic stellate cellHepatocytesOctamer Transcription Factor-3BiomarkersProgenitorStem Cell Research & Therapy
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Generation of a disease-specific iPS cell line derived from a patient with Charcot-Marie-Tooth type 2K lacking functional GDAP1 gene

2016

Human CMT2-FiPS4F1 cell line was generated from fibroblasts of a patient with Charcot-Marie-Tooth disease harbouring the following mutations in the GDAP1 gene in heterozygosis: p.Q163X/p.T288NfsX3. This patient did not present mutations in the PM22, MPZ or GJB genes. Human reprogramming factors OCT3/4, KLF4, SOX2 and C-MYC were delivered using a non-integrative methodology that involves the use of Sendai virus.

0301 basic medicineMaleHeterozygoteCellular differentiationCèl·lulesDNA Mutational AnalysisGenetic VectorsInduced Pluripotent Stem CellsKaryotypeNerve Tissue ProteinsBiologyPolymorphism Single NucleotideSendai virusCell Line03 medical and health sciencesKruppel-Like Factor 4stomatognathic systemCharcot-Marie-Tooth DiseaseHumansInduced pluripotent stem cellGeneTranscription factorMedicine(all)GeneticsBase SequenceHeterozygote advantageCell DifferentiationCell BiologyGeneral MedicineFibroblastsbiology.organism_classificationCellular ReprogrammingSendai virus030104 developmental biologyMicroscopy FluorescenceKLF4embryonic structuresSistema nerviós MalaltiesReprogrammingDevelopmental BiologyTranscription Factors
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Generation of three human iPSC lines from PLAN (PLA2G6-associated neurodegeneration) patients

2021

© 2021 The Authors.

0301 basic medicineQH301-705.5Cellular differentiationInduced Pluripotent Stem CellsNeuroaxonal Dystrophies:Cells::Stem Cells::Adult Stem Cells::Induced Pluripotent Stem Cells [ANATOMY]Biologymedicine.disease_cause:células::células madre::células madre adultas::células madre pluripotentes inducidas [ANATOMÍA]Sistema nerviós - DegeneracióCell LineDermal fibroblastGroup VI Phospholipases A203 medical and health sciencesKruppel-Like Factor 40302 clinical medicineSOX2medicineHumans:enfermedades del sistema nervioso::enfermedades neurodegenerativas [ENFERMEDADES]Biology (General)Induced pluripotent stem cellMutationNeurodegenerationCell DifferentiationCell BiologyGeneral Medicinemedicine.diseaseCellular Reprogramming030104 developmental biologyKLF4:Nervous System Diseases::Neurodegenerative Diseases [DISEASES]MutationCancer researchMalalties raresReprogramming030217 neurology & neurosurgeryGenèticaDevelopmental BiologyStem Cell Research
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Editorial overview: Fluidity of cell fates – from reprogramming to repair

2021

2019-20 coronavirus outbreakCoronavirus disease 2019 (COVID-19)Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)CellBiologyCellular ReprogrammingModels BiologicalVirologymedicine.anatomical_structureGeneticsmedicineAnimalsHumansCell LineageReprogrammingDevelopmental BiologyCurrent Opinion in Genetics & Development
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