2023
HEXIM1 is an essential transcription regulator during human erythropoiesis
Lv X, Murphy K, Murphy Z, Getman M, Rahman N, Nakamura Y, Blanc L, Gallagher P, Palis J, Mohandas N, Steiner L. HEXIM1 is an essential transcription regulator during human erythropoiesis. Blood 2023, 142: 2198-2215. PMID: 37738561, PMCID: PMC10733840, DOI: 10.1182/blood.2022019495.Peer-Reviewed Original ResearchConceptsFetal globin expressionGene expressionGlobin expressionCycle progressionErythroid gene expressionBeta-globinBeta-globin locusGenome-wide profilingRNA polymerase II activityLong non-coding RNANon-coding RNAErythroid proliferationPolymerase II activityCell cycle progressionEssential transcription regulatorRNAPII activityRNAPII occupancyGlobin locusTranscription machineryTranscription regulatorsFetal globinRNAPIIFetal gene expressionHEXIM1Human erythropoiesis
2016
Setd1a and NURF mediate chromatin dynamics and gene regulation during erythroid lineage commitment and differentiation
Li Y, Schulz VP, Deng C, Li G, Shen Y, Tusi BK, Ma G, Stees J, Qiu Y, Steiner LA, Zhou L, Zhao K, Bungert J, Gallagher PG, Huang S. Setd1a and NURF mediate chromatin dynamics and gene regulation during erythroid lineage commitment and differentiation. Nucleic Acids Research 2016, 44: 7173-7188. PMID: 27141965, PMCID: PMC5009724, DOI: 10.1093/nar/gkw327.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntigens, NuclearCell LineageCells, CulturedChromatinChromatin Assembly and DisassemblyChromatin ImmunoprecipitationErythroblastsErythrocyte CountErythrocytesErythropoiesisFemaleGene Expression RegulationHemoglobinsHistone-Lysine N-MethyltransferaseHistonesHumansLysineMaleMethylationMiceMice, KnockoutMicrococcal NucleaseMultiprotein ComplexesNerve Tissue ProteinsPromoter Regions, GeneticSpleenTranscription FactorsUpstream Stimulatory FactorsConceptsNURF complexChromatin dynamicsErythroid genesLineage commitmentAdult β-globin geneErythroid gene promotersErythroid lineage differentiationCell context-dependent mannerErythroid lineage commitmentChromatin structural alterationsContext-dependent mannerΒ-globin geneChromatin architectureEnhancer accessibilityChromatin accessibilityNucleosome repositioningTranscription regulationChromatin structureH3K4 methylationGene regulationComplex occupancyMammalian cellsGene activationGene transcriptionLineage differentiation
2014
Global transcriptome analyses of human and murine terminal erythroid differentiation
An X, Schulz VP, Li J, Wu K, Liu J, Xue F, Hu J, Mohandas N, Gallagher PG. Global transcriptome analyses of human and murine terminal erythroid differentiation. Blood 2014, 123: 3466-3477. PMID: 24637361, PMCID: PMC4041167, DOI: 10.1182/blood-2014-01-548305.Peer-Reviewed Original ResearchConceptsTerminal erythroid differentiationErythroid differentiationGene expressionMurine terminal erythroid differentiationStage-specific transcriptomesDifferentiation stageGlobal transcriptome analysisStage-specific patternsRNA sequencing analysisGene expression profilesDistinct developmental stagesMurine transcriptomesFluorescence-activated cell sortingTranscriptional spaceErythroid developmentMurine erythroblastsTranscriptome analysisUnique transcriptomeBioinformatics analysisPerturbed erythropoiesisTranscriptomeExpression profilesErythroid disordersDevelopmental stagesSequencing analysis
2013
USF1 and hSET1A Mediated Epigenetic Modifications Regulate Lineage Differentiation and HoxB4 Transcription
Deng C, Li Y, Liang S, Cui K, Salz T, Yang H, Tang Z, Gallagher PG, Qiu Y, Roeder R, Zhao K, Bungert J, Huang S. USF1 and hSET1A Mediated Epigenetic Modifications Regulate Lineage Differentiation and HoxB4 Transcription. PLOS Genetics 2013, 9: e1003524. PMID: 23754954, PMCID: PMC3675019, DOI: 10.1371/journal.pgen.1003524.Peer-Reviewed Original ResearchMeSH KeywordsBasic Helix-Loop-Helix Transcription FactorsCell DifferentiationCell LineageEmbryonic Stem CellsEpigenesis, GeneticGene Expression RegulationHistone-Lysine N-MethyltransferaseHomeodomain ProteinsHumansK562 CellsMesodermMethyltransferasesProto-Oncogene ProteinsT-Cell Acute Lymphocytic Leukemia Protein 1Transcription FactorsTranscriptional ActivationUpstream Stimulatory FactorsConceptsEmbryonic stem cellsLineage differentiationTrithorax complexesHoxb4 genesMethyltransferase complexTranscription preinitiation complex assemblyHistone H3K4 methyltransferase complexRNA interference-mediated knockdownBivalent chromatin domainsH3K4 methyltransferase complexUndifferentiated embryonic stem cellsPreinitiation complex assemblyHistone methyltransferase complexTranscription factor USF1H3K4 methyltransferase activityHematopoietic stem/progenitor cellsHematopoietic cell populationsStem/progenitor cellsDPY-30HOXB4 promoterMesoderm specificationChromatin domainsMesoderm differentiationH3K4me3 modificationHematopoietic transitionFetal hemoglobin in sickle cell anemia: Genetic studies of the Arab-Indian haplotype
Ngo D, Bae H, Steinberg MH, Sebastiani P, Solovieff N, Baldwin CT, Melista E, Safaya S, Farrer LA, Al-Suliman AM, Albuali WH, Bagshi M, Naserullah Z, Akinsheye I, Gallagher P, Luo HY, Chui DH, Farrell JJ, Al-Ali AK, Alsultan A. Fetal hemoglobin in sickle cell anemia: Genetic studies of the Arab-Indian haplotype. Blood Cells Molecules And Diseases 2013, 51: 22-26. PMID: 23465615, PMCID: PMC3647015, DOI: 10.1016/j.bcmd.2012.12.005.Peer-Reviewed Original ResearchAdolescentAdultAllelesAnemia, Sickle CellArabsBeta-GlobinsCarrier ProteinsChildChild, PreschoolFetal HemoglobinGenes, mybGTP-Binding ProteinsHaplotypesHemoglobin, SickleHomeodomain ProteinsHSP70 Heat-Shock ProteinsHumansKruppel-Like Transcription FactorsLocus Control RegionMiddle AgedMutationNuclear ProteinsPeptide Elongation FactorsPolymorphism, GeneticPromoter Regions, GeneticRepressor ProteinsSequence Analysis, DNATranscription FactorsYoung Adult
2012
MKL1 and MKL2 play redundant and crucial roles in megakaryocyte maturation and platelet formation
Smith EC, Thon JN, Devine MT, Lin S, Schulz VP, Guo Y, Massaro SA, Halene S, Gallagher P, Italiano JE, Krause DS. MKL1 and MKL2 play redundant and crucial roles in megakaryocyte maturation and platelet formation. Blood 2012, 120: 2317-2329. PMID: 22806889, PMCID: PMC3447785, DOI: 10.1182/blood-2012-04-420828.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine DiphosphateAnimalsBleeding TimeBlood PlateletsBone Marrow CellsCells, CulturedCrosses, GeneticCytoplasmCytoskeletonGene Expression ProfilingHematopoiesisMegakaryocytesMiceMice, Inbred C57BLMice, KnockoutOligonucleotide Array Sequence AnalysisPlatelet ActivationThrombocytopeniaTrans-ActivatorsTranscription FactorsConceptsMegakaryocyte maturationPlatelet formationSerum response factorSerum response factor expressionMembrane organizationGene expressionMKL1MKL2Response factorDKO miceKO backgroundMegakaryocyte compartmentMegakaryocytesCritical roleMegakaryocyte ploidyExpressionMaturationKnockout miceFactor expressionCrucial roleHomologuesGenesMiceProlonged bleeding timeRoleAltered subcellular localization of transcription factor TEAD4 regulates first mammalian cell lineage commitment
Home P, Saha B, Ray S, Dutta D, Gunewardena S, Yoo B, Pal A, Vivian JL, Larson M, Petroff M, Gallagher PG, Schulz VP, White KL, Golos TG, Behr B, Paul S. Altered subcellular localization of transcription factor TEAD4 regulates first mammalian cell lineage commitment. Proceedings Of The National Academy Of Sciences Of The United States Of America 2012, 109: 7362-7367. PMID: 22529382, PMCID: PMC3358889, DOI: 10.1073/pnas.1201595109.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBlastocystBlastocyst Inner Cell MassBlastomeresBlotting, WesternCattleCDX2 Transcription FactorCell LineageCell NucleusCells, CulturedDNA-Binding ProteinsEmbryonic Stem CellsGATA3 Transcription FactorGene Expression Regulation, DevelopmentalGreen Fluorescent ProteinsHEK293 CellsHomeodomain ProteinsHumansMacaca mulattaMiceMice, TransgenicMuscle ProteinsRatsReverse Transcriptase Polymerase Chain ReactionRNA InterferenceTEA Domain Transcription FactorsTranscription FactorsConceptsInner cell massTranscriptional programsICM lineagesSubcellular localizationNuclear localizationInner blastomeresCell fate specificationSpecific transcriptional programsCell lineage commitmentAltered subcellular localizationTranscription factor TEAD4Preimplantation mouse embryosFate specificationLineage commitmentTarget genesMouse embryosCell lineagesTEAD4LineagesBlastomeresBlastocyst formationCell massDifferential functionGenesLocalization
2011
Genome-wide ChIP-Seq reveals a dramatic shift in the binding of the transcription factor erythroid Kruppel-like factor during erythrocyte differentiation
Pilon AM, Ajay SS, Kumar SA, Steiner LA, Cherukuri PF, Wincovitch S, Anderson SM, Mullikin J, Gallagher P, Hardison R, Margulies E, Bodine D. Genome-wide ChIP-Seq reveals a dramatic shift in the binding of the transcription factor erythroid Kruppel-like factor during erythrocyte differentiation. Blood 2011, 118: e139-e148. PMID: 21900194, PMCID: PMC3208289, DOI: 10.1182/blood-2011-05-355107.Peer-Reviewed Original ResearchConceptsErythroid Kruppel-like factorKruppel-like factorChIP-seqTranscription factorsGenome-wide ChIP-seqProgenitor cellsMouse erythroid progenitor cellsCell cycle regulatory pathwaysErythroid transcription factorsGeneral cell growthRNA-seq analysisErythroid progenitor cellsTranscriptional activatorGATA factorsIntragenic regionsErythrocyte differentiationRegulatory pathwaysNuclear distributionPromoter regionParallel sequencingInteractomeDifferentiated erythroblastsCell growthTAL1Little overlap
2009
Chromatin Architecture and Transcription Factor Binding Regulate Expression of Erythrocyte Membrane Protein Genes
Steiner LA, Maksimova Y, Schulz V, Wong C, Raha D, Mahajan MC, Weissman SM, Gallagher PG. Chromatin Architecture and Transcription Factor Binding Regulate Expression of Erythrocyte Membrane Protein Genes. Molecular And Cellular Biology 2009, 29: 5399-5412. PMID: 19687298, PMCID: PMC2756878, DOI: 10.1128/mcb.00777-09.Peer-Reviewed Original ResearchMeSH KeywordsBasic Helix-Loop-Helix Transcription FactorsChromatinErythrocyte MembraneErythrocytesGATA1 Transcription FactorGene Expression RegulationHeLa CellsHistone DeacetylasesHumansMembrane ProteinsNF-E2 Transcription Factor, p45 SubunitNuclear ProteinsProto-Oncogene ProteinsRepressor ProteinsT-Cell Acute Lymphocytic Leukemia Protein 1Transcription FactorsConceptsErythrocyte membrane protein genesMembrane protein geneNF-E2 bindingGATA-1Protein geneChromatin architectureFOG-1Nonerythroid cellsBinding motifDynamic chromatin architectureHistone H3 trimethylationNF-E2Numerous candidate regionsTranscription factor bindingGATA-1 bindingTranscriptional start siteComplex genetic lociParallel DNA sequencingGenomic organizationLocus structureLysine 4H3 trimethylationGene regulationChromatin immunoprecipitationStart site
2004
Sequences Downstream of the Erythroid Promoter Are Required for High Level Expression of the Human α-Spectrin Gene*
Wong EY, Lin J, Forget BG, Bodine DM, Gallagher PG. Sequences Downstream of the Erythroid Promoter Are Required for High Level Expression of the Human α-Spectrin Gene*. Journal Of Biological Chemistry 2004, 279: 55024-55033. PMID: 15456760, DOI: 10.1074/jbc.m408886200.Peer-Reviewed Original ResearchMeSH KeywordsBase SequenceBinding SitesCell DifferentiationCell MembraneCell NucleusChromatin ImmunoprecipitationCREB-Binding ProteinDeoxyribonuclease IDNADNA PrimersDNA, ComplementaryDNA-Binding ProteinsErythrocytesErythroid-Specific DNA-Binding FactorsEthidiumExonsGATA1 Transcription FactorGenes, ReporterHeLa CellsHumansImmunoprecipitationIntronsK562 CellsLuciferasesModels, GeneticMolecular Sequence DataMutationNuclear ProteinsPlasmidsPromoter Regions, GeneticSpectrinTemperatureTrans-ActivatorsTranscription FactorsTransfectionConceptsErythroid-specific expressionAlpha-spectrin geneGATA-1 sitesCore promoterDNase I hypersensitive sitesElectrophoretic mobility shift assaysChromatin immunoprecipitation assaysMobility shift assaysΑ-spectrin geneThymidine kinase promoterPositive regulatory elementHigh-level expressionGenomic orientationErythroid promoterGATA-1Membrane proteinsHypersensitive sitesImmunoprecipitation assaysRegulatory elementsSequence downstreamShift assaysErythroid differentiationTransfection assaysEnhancer activityReporter geneHuman potassium chloride cotransporter 1 (SLC12A4) promoter is regulated by AP-2 and contains a functional downstream promoter element
Zhou GP, Wong C, Su R, Crable SC, Anderson KP, Gallagher PG. Human potassium chloride cotransporter 1 (SLC12A4) promoter is regulated by AP-2 and contains a functional downstream promoter element. Blood 2004, 103: 4302-4309. PMID: 14976052, DOI: 10.1182/blood-2003-01-0107.Peer-Reviewed Original ResearchMeSH Keywords5' Untranslated RegionsAcetylationBase SequenceCarcinoma, HepatocellularChromatinCloning, MolecularDNA-Binding ProteinsErythroid CellsHeLa CellsHumansK562 CellsMolecular Sequence DataPrecipitin TestsPromoter Regions, GeneticSp1 Transcription FactorSymportersTranscription Factor AP-2Transcription FactorsTranscription Initiation SiteConceptsDownstream promoter elementAP-2Gene promoterSp1 sitesK-Cl cotransportPromoter elementsKCC1 geneMammalian gene promotersElectrophoretic mobility shift assaysChromatin immunoprecipitation assaysFull promoter activityMobility shift assaysCore promoter regionReporter gene assayChloride cotransporter 1TATA boxImmunoprecipitation assaysInitiator elementShift assaysHeterologous cellsMutational analysisDNase IPromoter regionGenomic DNAPromoter activity
2002
Erythroid Expression of the Human α-Spectrin Gene Promoter Is Mediated by GATA-1- and NF-E2-binding Proteins*
Boulanger L, Sabatino DE, Wong EY, Cline AP, Garrett LJ, Garbarz M, Dhermy D, Bodine DM, Gallagher PG. Erythroid Expression of the Human α-Spectrin Gene Promoter Is Mediated by GATA-1- and NF-E2-binding Proteins*. Journal Of Biological Chemistry 2002, 277: 41563-41570. PMID: 12196550, DOI: 10.1074/jbc.m208184200.Peer-Reviewed Original ResearchMeSH Keywords5' Flanking RegionAnimalsBase SequenceBinding SitesDNA, ComplementaryDNA-Binding ProteinsErythroid Precursor CellsErythroid-Specific DNA-Binding FactorsErythropoiesisGATA1 Transcription FactorHeLa CellsHumansK562 CellsMiceMice, TransgenicMolecular Sequence DataNF-E2 Transcription FactorNF-E2 Transcription Factor, p45 SubunitPromoter Regions, GeneticSpectrinTranscription FactorsConceptsGene promoterGATA-1Reporter genePromoter/reporter plasmidsAlpha-spectrinGel mobility shift assaysErythroid-specific expressionFull promoter activityAlpha-spectrin geneMobility shift assaysErythroid progenitor cellsHuman tissue culture cell linesTissue culture cell linesAdult reticulocytesErythroid promoterNonerythroid tissuesMembrane proteinsLow-level expressionRegulatory elementsShift assaysErythroid expressionCell shapeDNase IErythroid cellsPromoter activity