2015
E2F8 as a Novel Therapeutic Target for Lung Cancer
Park SA, Platt J, Lee JW, López-Giráldez F, Herbst RS, Koo JS. E2F8 as a Novel Therapeutic Target for Lung Cancer. Journal Of The National Cancer Institute 2015, 107: djv151. PMID: 26089541, PMCID: PMC4651101, DOI: 10.1093/jnci/djv151.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntineoplastic AgentsCCAAT-Enhancer-Binding ProteinsCell Line, TumorCell ProliferationCell SurvivalChromatin ImmunoprecipitationFluorescent Antibody TechniqueGene Expression Regulation, NeoplasticHumansImmunoblottingKaplan-Meier EstimateLung NeoplasmsMiceMolecular Targeted TherapyNeoplastic Stem CellsPromoter Regions, GeneticRepressor ProteinsTissue Array AnalysisUbiquitin-Protein LigasesUp-RegulationXenograft Model Antitumor AssaysConceptsTarget genesCell cycle regulationNovel therapeutic targetPromoter activity assaysCell proliferationCancer cellsExpression of UHRF1Transcription activatorAntisense morpholinoChromatin immunoprecipitationCycle regulationTherapeutic targetEmbryonic developmentE2F membersHuman lung cancer cellsMicroarray analysisInvasion analysisLung cancer cellsDirect bindingTumor growthE2F8Activity assaysPublic databasesColony formationUHRF1
1990
The mouse albumin enhancer contains a negative regulatory element that interacts with a novel DNA-binding protein.
Herbst RS, Boczko EM, Darnell JE, Babiss LE. The mouse albumin enhancer contains a negative regulatory element that interacts with a novel DNA-binding protein. Molecular And Cellular Biology 1990, 10: 3896-3905. PMID: 2370857, PMCID: PMC360900, DOI: 10.1128/mcb.10.8.3896.Peer-Reviewed Original ResearchConceptsDNA-binding sitesMouse albumin enhancerNovel DNA-binding proteinAlbumin enhancerNegative regulatory domainDNA-binding proteinsNegative regulatory regionDNA-binding activityNegative regulatory elementPositive-acting elementsOrientation-independent fashionRegulatory domainRegulatory regionsAlbumin gene transcriptionGene transcriptionRegulatory elementsEnhancer functionNew proteinsCap siteTissue specificityAlbumin geneCell typesProteinNonhepatic cellsEnhancerThe state of cellular differentiation determines the activity of the adenovirus E1A enhancer element: evidence for negative regulation of enhancer function
Herbst RS, Pelletier M, Boczko EM, Babiss LE. The state of cellular differentiation determines the activity of the adenovirus E1A enhancer element: evidence for negative regulation of enhancer function. Journal Of Virology 1990, 64: 161-172. PMID: 2136708, PMCID: PMC249075, DOI: 10.1128/jvi.64.1.161-172.1990.Peer-Reviewed Original ResearchMeSH KeywordsAdenovirus Early ProteinsAdenoviruses, HumanAnimalsBase SequenceCell DifferentiationCell LineCell NucleusDNA-Binding ProteinsEnhancer Elements, GeneticGene ExpressionGene Expression Regulation, ViralGenes, ViralHeLa CellsHumansMolecular Sequence DataMutationOncogene Proteins, ViralPromoter Regions, GeneticRNA, MessengerSuppression, GeneticTranscription, GeneticViral Structural ProteinsConceptsE1A gene transcriptionFetal fibroblast cellsGene transcriptionHepatoma cell lineFibroblast cellsCell phenotypeCell linesLiver hepatocytesRodent hepatocytesRat liver hepatocytesSimilar binding activityFurther suppressionHeLa cellsEnhancer elementsCellsBinding activityHepatocytesViral genomeDifferentiated cellsE1A enhancerNegative regulationCellular differentiationImportant mechanismPhenotypeHigh levels
1989
Positive and negative regulatory elements in the mouse albumin enhancer.
Herbst RS, Friedman N, Darnell JE, Babiss LE. Positive and negative regulatory elements in the mouse albumin enhancer. Proceedings Of The National Academy Of Sciences Of The United States Of America 1989, 86: 1553-1557. PMID: 2922398, PMCID: PMC286736, DOI: 10.1073/pnas.86.5.1553.Peer-Reviewed Original Research
1988
Regulation of adenovirus and cellular gene expression and of cellular transformation by the E1B-encoded 175-amino-acid protein
Herbst RS, Hermo H, Fisher PB, Babiss LE. Regulation of adenovirus and cellular gene expression and of cellular transformation by the E1B-encoded 175-amino-acid protein. Journal Of Virology 1988, 62: 4634-4643. PMID: 2972843, PMCID: PMC253576, DOI: 10.1128/jvi.62.12.4634-4643.1988.Peer-Reviewed Original ResearchConceptsE1A 289R proteinViral early gene expressionCellular gene expressionGene expressionE1A proteinsEarly gene expressionRat embryo fibroblast cellsEnhancer-dependent transcriptionViral E1A proteinsE1A gene productsAltered cell growthEmbryo fibroblast cellsTranscription initiationProtein functionCommon pathwayCellular transformationCREF cellsE1A 13SGene productsGene promoterFoci formationViral genomeHeLa cellsCell growthType 5 adenovirus
1987
Factors that interact with the rat albumin promoter are present both in hepatocytes and other cell types.
Babiss LE, Herbst RS, Bennett AL, Darnell JE. Factors that interact with the rat albumin promoter are present both in hepatocytes and other cell types. Genes & Development 1987, 1: 256-267. PMID: 3678823, DOI: 10.1101/gad.1.3.256.Peer-Reviewed Original Research