Search results for "DNA demethylation"

showing 8 items of 8 documents

DNA demethylation caused By 5-Aza-2'-Deoxycytidine induces mitotic alterations and aneuploidy

2016

Aneuploidy, the unbalanced number of chromosomes in a cell, is considered a prevalent form of genetic instability and is largely acknowledged as a condition implicated in tumorigenesis. Epigenetic alterations like DNA hypomethylation have been correlated with cancer initiation/progression. Furthermore, a growing body of evidence suggests the involvement of epigenome-wide disruption as a cause of global DNA hypomethylation in aneuploidy generation. Here, we report that the DNA hypomethylating drug 5-aza-2′-deoxycytidine (DAC), affects the correct ploidy of nearly diploid HCT-116 human cells by altering the methylation pattern of the chromosomes. Specifically, we show that a DAC-induced reduc…

0301 basic medicineAntimetabolites Antineoplastic5-aza-2'-deoxycytidine (DAC); Aneuploidy; Chromosome methylation pattern; Chromosome Section; DNA demethylation; OncologyBlotting WesternAneuploidyMitosisApoptosisBiologymedicine.disease_causeDecitabineReal-Time Polymerase Chain ReactionChromosome Section03 medical and health scienceschromosome methylation patternChromosome instabilitymedicineTumor Cells CulturedHumansEpigeneticsaneuploidyRNA Messenger5-aza-2′-deoxycytidine (DAC)Cell ProliferationGeneticsChromosome AberrationsPloidiesReverse Transcriptase Polymerase Chain ReactionDNA Methylationmedicine.disease5-aza-2'-deoxycytidine (DAC)Gene Expression Regulation NeoplasticResearch Paper: ChromosomeSettore BIO/18 - Genetica030104 developmental biologyDNA demethylationOncologyMicroscopy FluorescenceDNA methylationColonic NeoplasmsCytogenetic AnalysisCancer researchDNA demethylationAzacitidinePloidyCarcinogenesisDNA hypomethylation

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Tumor Microenvironment And Epithelial Mesenchymal Transition As Targets To Overcome Tumor Multidrug Resistance

2020

It is well established that multifactorial drug resistance hinders successful cancer treatment. Tumor cell interactions with the tumor microenvironment (TME) are crucial in epithelial-mesenchymal transition (EMT) and multidrug resistance (MDR). TME-induced factors secreted by cancer cells and cancer-associated fibroblasts (CAFs) create an inflammatory microenvironment by recruiting immune cells. CD11b+/Gr-1+ myeloid-derived suppressor cells (MDSCs) and inflammatory tumor associated macrophages (TAMs) are main immune cell types which further enhance chronic inflammation. Chronic inflammation nurtures tumor-initiating/cancer stem-like cells (CSCs), induces both EMT and MDR leading to tumor re…

0301 basic medicineCancer Researchmedicine.medical_treatmentMultidrug resistanceTargeted therapyTargeted therapy0302 clinical medicineCancer-Associated FibroblastsNeoplasmsAntineoplastic Combined Chemotherapy ProtocolsTumor-Associated MacrophagesTumor MicroenvironmentPharmacology (medical)HypoxiaTOR Serine-Threonine KinasesSmall moleculesChemotherapy ; Hypoxia ; Inflammation ; Microenvironment ; Multidrug resistance ; Small molecules ; Targeted therapy.Drug Resistance Multiple3. Good healthDNA DemethylationGene Expression Regulation NeoplasticInfectious DiseasesOncology030220 oncology & carcinogenesisInflammation MediatorsEpithelial-Mesenchymal TransitionStromal cellMicroenvironmentBiologyProinflammatory cytokine03 medical and health sciencesCell Line TumormedicineAnimalsHumansChemotherapyEpithelial–mesenchymal transitionPharmacologyInflammationTumor microenvironmentCancerHypoxia-Inducible Factor 1 alpha Subunitmedicine.diseaseHistone Deacetylase InhibitorsMultiple drug resistanceDisease Models Animal030104 developmental biologyDrug Resistance NeoplasmCancer cellCancer research

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Impaired DNA demethylation of C/EBP sites causes premature aging

2018

Changes in DNA methylation are among the best-documented epigenetic alterations accompanying organismal aging. However, whether and how altered DNA methylation is causally involved in aging have remained elusive. GADD45α (growth arrest and DNA damage protein 45A) and ING1 (inhibitor of growth family member 1) are adapter proteins for site-specific demethylation by TET (ten-eleven translocation) methylcytosine dioxygenases. Here we show that Gadd45a/Ing1 double-knockout mice display segmental progeria and phenocopy impaired energy homeostasis and lipodystrophy characteristic of Cebp (CCAAT/enhancer-binding protein) mutants. Correspondingly, GADD45α occupies C/EBPβ/δ-dependent superenhancers …

0301 basic medicinePremature agingAgingLipodystrophyDNA damageCell Cycle ProteinsBiology03 medical and health sciencesMiceGeneticsAnimalsHomeostasisEpigeneticsCells CulturedDemethylationMice KnockoutNuclear ProteinsAging PrematureMethylationCell biologyChromatinDNA Demethylation030104 developmental biologyDNA demethylationDNA methylationCCAAT-Enhancer-Binding ProteinsInhibitor of Growth Protein 1Developmental BiologyResearch Paper

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Functional impacts of 5-hydroxymethylcytosine, 5-formylcytosine, and 5-carboxycytosine at a single hemi-modified CpG dinucleotide in a gene promoter

2017

Abstract Enzymatic oxidation of 5-methylcytosine (5-mC) in the CpG dinucleotides to 5-hydroxymethylcytosine (5-hmC), 5-formylcytosine (5-fC) and 5-carboxycytosine (5-caC) has central role in the process of active DNA demethylation and epigenetic reprogramming in mammals. However, it is not known whether the 5-mC oxidation products have autonomous epigenetic or regulatory functions in the genome. We used an artificial upstream promoter constituted of one cAMP response element (CRE) to measure the impact of 5-mC in a hemi-methylated CpG on the promoter activity and further explored the consequences of 5-hmC, 5-fC, and 5-caC in the same system. All modifications induced mild impairment of the …

0301 basic medicineResponse elementCREB03 medical and health sciencesCytosine0302 clinical medicineGeneticsAnimalsHumansCyclic AMP Response Element-Binding ProteinPromoter Regions GeneticRegulation of gene expressionbiologyBase SequenceGene regulation Chromatin and EpigeneticsPromoterDNADNA MethylationThymine DNA GlycosylaseCell biology030104 developmental biologyDNA demethylationCpG siteGene Expression RegulationDNA glycosylaseDNA methylationbiology.protein5-MethylcytosineCpG Islands030217 neurology & neurosurgeryProtein BindingNucleic Acids Research

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GADD45a physically and functionally interacts with TET1

2015

AbstractDNA demethylation plays a central role during development and in adult physiology. Different mechanisms of active DNA demethylation have been established. For example, Growth Arrest and DNA Damage 45-(GADD45) and Ten-Eleven-Translocation (TET) proteins act in active DNA demethylation but their functional relationship is unresolved. Here we show that GADD45a physically interacts – and functionally cooperates with TET1 in methylcytosine (mC) processing. In reporter demethylation GADD45a requires endogenous TET1 and conversely TET1 requires GADD45a. On GADD45a target genes TET1 hyperinduces 5-hydroxymethylcytosine (hmC) in the presence of GADD45a, while 5-formyl-(fC) and 5-carboxylcyto…

Gadd45Cancer ResearchDNA damageCell Cycle ProteinsBiologyDNA-binding proteinArticleMixed Function OxygenaseshmCchemistry.chemical_compoundCytosineLC–MS/MSProto-Oncogene ProteinsHumansImmunoprecipitationMolecular BiologyDemethylationGadd45Nuclear ProteinsOxidative DNA demethylationCell BiologyDNA MethylationDNA-Binding Proteins5-MethylcytosineDNA demethylationHEK293 CellschemistryBiochemistryGene Knockdown TechniquesDNA methylationDNA demethylation5-MethylcytosineOxidation-ReductionTETProtein BindingDevelopmental BiologyDifferentiation

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Patterns of genomic instability in gastric cancer: clinical implications and perspectives

2007

In gastric cancer (GC) the loss of genomic stability represents a key molecular step that occurs early in the carcinogenesis process and creates a permissive environment for the accumulation of genetic and epigenetic alterations in tumor suppressor genes and oncogenes. It is widely accepted that GC can follow at least two major genomic instability pathways, microsatellite instability (MSI) and chromosome instability (CIN). MSI is responsible for a well-defined subset of GCs. CIN represents a more common pathway comprising heterogeneous subsets of GC. In addition to MSI and CIN, the CpG islands methylator phenotype (CIMP) plays an important role in gastric carcinogenesis. CIMP may lead to th…

Genome instabilitybusiness.industrygastric cancer genomic instability microsatellite instability (MSI) chromosomal instability (CIN) CpG island methylator phenotype (CIMP) clinical implicationsMicrosatellite instabilityHematologyDNA Methylationmedicine.diseasemedicine.disease_causedigestive system diseasesDNA demethylationOncologyCpG siteStomach NeoplasmsChromosomal InstabilityChromosome instabilityDNA methylationmedicineCancer researchHumansCpG IslandsMicrosatellite InstabilityEpigeneticsbusinessCarcinogenesisneoplasms

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Stable Oxidative Cytosine Modifications Accumulate in Cardiac Mesenchymal Cells From Type2 Diabetes Patients

2018

Rationale: Human cardiac mesenchymal cells (CMSCs) are a therapeutically relevant primary cell population. Diabetes mellitus compromises CMSC function as consequence of metabolic alterations and incorporation of stable epigenetic changes. Objective: To investigate the role of α-ketoglutarate (αKG) in the epimetabolic control of DNA demethylation in CMSCs. Methods and Results: Quantitative global analysis, methylated and hydroxymethylated DNA sequencing, and gene-specific GC methylation detection revealed an accumulation of 5-methylcytosine, 5-hydroxymethylcytosine, and 5-formylcytosine in the genomic DNA of human CMSCs isolated from diabetic donors. Whole heart genomic DNA analysis reveale…

Male0301 basic medicinePhysiologyPopulationheartBiologyMixed Function OxygenasesCytosineMice03 medical and health sciencesProto-Oncogene ProteinsfibroblastsHuman Umbilical Vein Endothelial CellsAnimalsHumansMyocytes CardiacEpigeneticsEnzyme InhibitorseducationCells CulturedEpigenomicsDemethylationeducation.field_of_studyDNA methylationDNA methylation; epigenomics; fibroblasts; heart; hyperglycemia; metabolism; physiology; cardiology and cardiovascular medicineMesenchymal Stem CellsSettore MED/13 - ENDOCRINOLOGIABase excision repairMolecular biologyThymine DNA GlycosylaseMice Inbred C57BLHEK293 Cells030104 developmental biologyDNA demethylationDiabetes Mellitus Type 2epigenomicsDNA methylationKetoglutaric AcidshyperglycemiaThymine-DNA glycosylaseCardiology and Cardiovascular MedicineOxidation-ReductionmetabolismCirculation Research

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Epigenetic Control of the foxp3 Locus in Regulatory T Cells

2007

Compelling evidence suggests that the transcription factor Foxp3 acts as a master switch governing the development and function of CD4+ regulatory T cells (Tregs). However, whether transcriptional control of Foxp3 expression itself contributes to the development of a stable Treg lineage has thus far not been investigated. We here identified an evolutionarily conserved region within the foxp3 locus upstream of exon-1 possessing transcriptional activity. Bisulphite sequencing and chromatin immunoprecipitation revealed complete demethylation of CpG motifs as well as histone modifications within the conserved region in ex vivo isolated Foxp3+CD25+CD4+ Tregs, but not in naïve CD25−CD4+ T cells. …

MaleQH301-705.5Bisulfite sequencingImmunologyMolecular Sequence Datachemical and pharmacologic phenomenaCell SeparationThymus GlandBiologyT-Lymphocytes RegulatoryGeneral Biochemistry Genetics and Molecular BiologyEpigenesis GeneticMiceTranscriptional regulationAnimalsEpigeneticsBiology (General)Regulation of gene expressionMice Inbred BALB CGeneral Immunology and MicrobiologyBase SequenceGeneral NeuroscienceInterleukin-2 Receptor alpha SubunitFOXP3Homo (human)hemic and immune systemsForkhead Transcription FactorsDNA MethylationFlow CytometryMolecular biologyMus (mouse)Cell biologyIn VitroDNA demethylationGene Expression RegulationDNA methylationCpG IslandsGeneral Agricultural and Biological SciencesChromatin immunoprecipitationResearch ArticlePLoS Biology

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