Search results for "Epigenetic"

showing 10 items of 632 documents

RBFOX1, encoding a splicing regulator, is a candidate gene for aggressive behavior

2020

The RBFOX1 gene (or A2BP1) encodes a splicing factor important for neuronal development that has been related to autism spectrum disorder and other neurodevelopmental phenotypes. Evidence from complementary sources suggests that this gene contributes to aggressive behavior. Suggestive associations with RBFOX1 have been identified in genome-wide association studies (GWAS) of anger, conduct disorder, and aggressive behavior. Nominal association signals in RBFOX1 were also found in an epigenome-wide association study (EWAS) of aggressive behavior. Also, variants in this gene affect temporal lobe volume, a brain area that is altered in several aggression-related phenotypes. In animals, this gen…

0301 basic medicineCandidate geneNeuroimagingRBFOX1Genome-wide association studyBiologyEpigenesis GeneticA2BP103 medical and health sciencesAll institutes and research themes of the Radboud University Medical Center0302 clinical medicineGeneticsmedicineAnimalsHumansPharmacology (medical)TranscriptomicsRBFOX1Genetic Association StudiesBiological PsychiatryRegulator genePharmacologyGeneticsNeurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7]AggressionGenetic Variationmedicine.diseasePhenotypeAnimal modelsAggressionPsychiatry and Mental health030104 developmental biologyNeurologyAutism spectrum disorderEpigeneticsRBFOX1 GeneRNA Splicing FactorsNeurology (clinical)medicine.symptom030217 neurology & neurosurgeryGenome-Wide Association Study
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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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Induction of cancer cell stemness by depletion of macrohistone H2A1 in hepatocellular carcinoma.

2017

Hepatocellular carcinomas (HCC) contain a subpopulation of cancer stem cells (CSCs), which exhibit stem cell–like features and are responsible for tumor relapse, metastasis, and chemoresistance. The development of effective treatments for HCC will depend on a molecular-level understanding of the specific pathways driving CSC emergence and stemness. MacroH2A1 is a variant of the histone H2A and an epigenetic regulator of stem-cell function, where it promotes differentiation and, conversely, acts as a barrier to somatic-cell reprogramming. Here, we focused on the role played by the histone variant macroH2A1 as a potential epigenetic factor promoting CSC differentiation. In human HCC section…

0301 basic medicineCarcinoma HepatocellularBiologyMetastasisHistones03 medical and health sciencesCancer stem cellHistone H2AmedicineHumansEpigeneticsPhosphorylationCell ProliferationHepatologyCell growthGene Expression ProfilingLiver NeoplasmsTranscription Factor RelAHep G2 Cellsmedicine.disease030104 developmental biologyHistoneCancer cellCancer researchbiology.proteinNeoplastic Stem CellsReprogrammingHepatology (Baltimore, Md.)
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Deregulated miRNAs in bone health: Epigenetic roles in osteoporosis.

2019

MicroRNA (miRNA) has shown to enhance or inhibit cell proliferation, differentiation and activity of different cell types in bone tissue. The discovery of miRNA actions and their targets has helped to identify them as novel regulations actors in bone. Various studies have shown that miRNA deregulation mediates the progression of bone-related pathologies, such as osteoporosis. The present review intends to give an exhaustive overview of miRNAs with experimentally validated targets involved in bone homeostasis and highlight their possible role in osteoporosis development. Moreover, the review analyzes miRNAs identified in clinical trials and involved in osteoporosis.

0301 basic medicineCell typeHistologyPhysiologyEndocrinology Diabetes and MetabolismOsteoporosis030209 endocrinology & metabolismBiologyBone tissueBioinformaticsBone healthBone and BonesEpigenesis Genetic03 medical and health sciences0302 clinical medicineOsteoclastSettore BIO/13 - Biologia ApplicatamicroRNAmedicineAnimalsHumansEpigeneticsmiRNA Bone Bone diseaseOsteoblastsOsteoblastCell Differentiationmedicine.diseaseMicroRNAs030104 developmental biologymedicine.anatomical_structureGene Expression RegulationOsteoporosisBone
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Epigenetic Regulation of Cardiac Differentiation of Embryonic Stem Cells and Tissues.

2016

International audience; Specific gene transcription is a key biological process that underlies cell fate decision during embryonic development. The biological process is mediated by transcription factors which bind genomic regulatory regions including enhancers and promoters of cardiac constitutive genes. DNA is wrapped around histones that are subjected to chemical modifications. Modifications of histones further lead to repressed, activated or poised gene transcription, thus bringing another level of fine tuning regulation of gene transcription. Embryonic Stem cells (ES cells) recapitulate within embryoid bodies (i.e., cell aggregates) or in 2D culture the early steps of cardiac developme…

0301 basic medicineCellular differentiationGeneral Chemical Engineering[SDV]Life Sciences [q-bio]Human Embryonic Stem Cellscardiac developmentcardiac differentiationEmbryoid bodychromatin immunoprecipitationBiologyGeneral Biochemistry Genetics and Molecular BiologyEpigenesis GeneticHistones03 medical and health sciencesMiceIssue 112AnimalsHumansEpigeneticsEnhancerTranscription factorGeneticsGeneral Immunology and MicrobiologyGeneral NeurosciencePromoterCell DifferentiationHeartgene transcription regulationEmbryonic stem cellES cellsCell biology[SDV] Life Sciences [q-bio]030104 developmental biologyEpigeneticsChromatin immunoprecipitationDevelopmental Biology
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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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LC-MS Analysis of Methylated RNA

2017

The detection and quantification of methylated RNA can be beneficial to understand certain cellular regulation processes such as transcriptional modulation of gene expression, immune response, or epigenetic alterations. Therefore, it is necessary to have methods available, which are extremely sensitive and accurate, for instance liquid chromatography-tandem mass spectrometry (LC-MS/MS). Here, we describe the preparation of RNA samples by enzymatic hydrolysis and the subsequent analysis of ribonucleosides by LC-MS/MS via NLS (Neutral loss scan) and DMRM (Dynamic multiple reaction monitoring). Also, we provide variations of these methods including chromatographic techniques and different kind…

0301 basic medicineChemistryRNA methylationSelected reaction monitoringRNA03 medical and health sciences030104 developmental biology0302 clinical medicineBiochemistryLiquid chromatography–mass spectrometryEnzymatic hydrolysisGene expressionMethylated DNA immunoprecipitationEpigenetics030217 neurology & neurosurgery
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A role for Mog1 in H2Bub1 and H3K4me3 regulation affecting RNAPII transcription and mRNA export.

2018

17 páginas, 12 figuras.

0301 basic medicineChromatin ImmunoprecipitationSaccharomyces cerevisiae ProteinsTranscription GeneticSaccharomyces cerevisiaeBiologyyeastEpigenetic RepressionBiochemistryRNA TransportHistones03 medical and health sciencesHistone H30302 clinical medicineTranscription (biology)Gene Expression Regulation FungalGeneticsHistone H2BMonoubiquitinationEpigeneticsRNA MessengerMolecular BiologyGenemRNA exportepigeneticsUbiquitinationMethylationArticlesTATA-Box Binding ProteinYeastCell biology030104 developmental biologyran GTP-Binding ProteinH3K4me3EpigeneticsRNA Polymerase IItranscriptionTranscription030217 neurology & neurosurgeryH2B ubiquitinationEMBO reports
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CENP-A Is Dispensable for Mitotic Centromere Function after Initial Centromere/Kinetochore Assembly

2016

SummaryHuman centromeres are defined by chromatin containing the histone H3 variant CENP-A assembled onto repetitive alphoid DNA sequences. By inducing rapid, complete degradation of endogenous CENP-A, we now demonstrate that once the first steps of centromere assembly have been completed in G1/S, continued CENP-A binding is not required for maintaining kinetochore attachment to centromeres or for centromere function in the next mitosis. Degradation of CENP-A prior to kinetochore assembly is found to block deposition of CENP-C and CENP-N, but not CENP-T, thereby producing defective kinetochores and failure of chromosome segregation. Without the continuing presence of CENP-A, CENP-B binding …

0301 basic medicineChromosomal Proteins Non-HistoneMedical PhysiologyEpigenesis GeneticChromosome segregationModelsChromosome SegregationKinetochoresGeneticsTumormitosiKinetochorekinetochoreCell biologyChromatinChromosomal Proteinsprotein degradationCENP-ACENP-BepigeneticCENP-C1.1 Normal biological development and functioningKinetochore assemblyCentromerechromosome segregationMitosismacromolecular substancesBiologyProtein degradationModels BiologicalGeneral Biochemistry Genetics and Molecular BiologyArticleCell Line03 medical and health sciencesGeneticUnderpinning researchCentromere Protein ACell Line TumorCentromereGeneticsHumansMitosisNon-HistoneBiologicalSettore BIO/18 - Genetica030104 developmental biologyGeneric health relevanceBiochemistry and Cell BiologyauxinCentromere Protein AEpigenesisCell Reports
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Advanced Glycation End Products (AGEs): Biochemistry, Signaling, Analytical Methods, and Epigenetic Effects

2020

The advanced glycation end products (AGEs) are organic molecules formed in any living organisms with a great variety of structural and functional properties. They are considered organic markers of the glycation process. Due to their great heterogeneity, there is no specific test for their operational measurement. In this review, we have updated the most common chromatographic, colorimetric, spectroscopic, mass spectrometric, and serological methods, typically used for the determination of AGEs in biological samples. We have described their signaling and signal transduction mechanisms and cell epigenetic effects. Although mass spectrometric analysis is not widespread in the detection of AGEs…

0301 basic medicineChronic exposureGlycation End Products AdvancedAgingSpecific testComputational biologyReview ArticleBiochemistryOrganic moleculesEpigenesis Genetic03 medical and health sciences0302 clinical medicineGlycationAGE antioxidants epigenetics biochemistry.MedicineHumansEpigeneticsQH573-671business.industryCell BiologyGeneral MedicineMass spectrometricAutofluorescence030104 developmental biology030220 oncology & carcinogenesisbusinessCytologySignal TransductionOxidative Medicine and Cellular Longevity
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