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Rb inactivation promotes genomic instability by uncoupling cell cycle progression from mitotic control
dc.contributor.authorHernando, Eva
dc.contributor.authorNahlé, Zaher
dc.contributor.authorJuan, Gloria
dc.contributor.authorDíaz Rodríguez, María Elena 
dc.contributor.authorAlaminos, Miguel
dc.contributor.authorHemann, Michael
dc.contributor.authorMichel, Loren
dc.contributor.authorMittal, Vivek
dc.contributor.authorGerald, William
dc.contributor.authorBenezra, Robert
dc.contributor.authorLowe, Scott W
dc.contributor.authorCordon-Cardo, Carlos
dc.date.accessioned2025-11-20T10:07:21Z
dc.date.available2025-11-20T10:07:21Z
dc.date.issued2004-08-12
dc.identifier.citationHernando E, Nahlé Z, Juan G, Diaz-Rodriguez E, Alaminos M, Hemann M, Michel L, Mittal V, Gerald W, Benezra R, Lowe SW, Cordon-Cardo C. Rb inactivation promotes genomic instability by uncoupling cell cycle progression from mitotic control. Nature. 2004 Aug 12;430(7001):797-802. doi: 10.1038/nature02820. PMID: 15306814.es_ES
dc.identifier.urihttp://hdl.handle.net/10366/167930
dc.description.abstract[EN]Advanced human cancers are invariably aneuploid, in that they harbour cells with abnormal chromosome numbers. However, the molecular defects underlying this trait, and whether they are a cause or a consequence of the malignant phenotype, are not clear. Mutations that disable the retinoblastoma (Rb) pathway are also common in human cancers. These mutations promote tumour development by deregulating the E2F family of transcription factors leading to uncontrolled cell cycle progression. We show that the mitotic checkpoint protein Mad2 is a direct E2F target and, as a consequence, is aberrantly expressed in cells with Rb pathway defects. Concordantly, Mad2 is overexpressed in several tumour types, where it correlates with high E2F activity and poor patient prognosis. Generation of Rb pathway lesions in normal and transformed cells produces aberrant Mad2 expression and mitotic defects leading to aneuploidy, such that elevated Mad2 contributes directly to these defects. These results demonstrate how chromosome instability can arise as a by-product of defects in cell cycle control that compromise the accuracy of mitosis, and suggest a new model to explain the frequent appearance of aneuploidy in human cancer.es_ES
dc.language.isoenges_ES
dc.rightsAttribution-NonCommercial-NoDerivatives 4.0 Internacional*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4.0/*
dc.subjectMad2, RB inactivation, chromosome instability, aneuploidyes_ES
dc.subjectMad2,es_ES
dc.subjectRB inactivationes_ES
dc.subjectChromosome instabilityes_ES
dc.subjectAneuploidyes_ES
dc.subject.meshDNA-Binding Proteins *
dc.subject.meshHumans *
dc.subject.meshGenomic Instability *
dc.subject.meshCell Line *
dc.subject.meshAneuploidy *
dc.subject.meshSignal Transduction *
dc.subject.meshE2F Transcription Factors *
dc.subject.meshSubstrate Specificity *
dc.subject.meshMice *
dc.subject.meshChromosomes *
dc.subject.meshMitosis *
dc.subject.meshRetinoblastoma Protein *
dc.subject.meshCell Cycle *
dc.subject.meshGene Expression Regulation *
dc.subject.meshMad2 Proteins *
dc.subject.meshKaryotyping *
dc.subject.meshCarrier Proteins *
dc.subject.meshNuclear Proteins *
dc.subject.meshRNA *
dc.subject.meshMutation *
dc.subject.meshImmunohistochemistry *
dc.subject.meshAnimals *
dc.subject.meshIn Situ Hybridization *
dc.subject.meshCell Cycle Proteins *
dc.subject.meshTranscription Factors *
dc.titleRb inactivation promotes genomic instability by uncoupling cell cycle progression from mitotic controles_ES
dc.typeinfo:eu-repo/semantics/articlees_ES
dc.relation.publishversionhttps://doi.org/ 10.1038/NATURE02820es_ES
dc.subject.unesco2302 Bioquímicaes_ES
dc.identifier.doi10.1038/nature02820
dc.relation.projectIDP30 CA008748/CA/NCI NIH HHS/United Stateses_ES
dc.rights.accessRightsinfo:eu-repo/semantics/openAccesses_ES
dc.identifier.pmid15306814
dc.identifier.essn1476-4687
dc.journal.titleNaturees_ES
dc.volume.number430es_ES
dc.issue.number7001es_ES
dc.page.initial797es_ES
dc.type.hasVersioninfo:eu-repo/semantics/publishedVersiones_ES
dc.subject.decsinestabilidad genómica *
dc.subject.decsmitosis *
dc.subject.decstransducción de señales *
dc.subject.decsratones *
dc.subject.decsmutación *
dc.subject.decslínea celular *
dc.subject.decsARN *
dc.subject.decsproteína de retinoblastoma *
dc.subject.decsproteínas transportadoras *
dc.subject.decsfactores de transcripción E2F *
dc.subject.decsproteínas nucleares *
dc.subject.decsaneuploidía *
dc.subject.decshibridación in situ *
dc.subject.decsciclo celular *
dc.subject.decsproteínas Mad2 *
dc.subject.decscromosomas *
dc.subject.decsespecificidad del sustrato *
dc.subject.decsinmunohistoquímica *
dc.subject.decshumanos *
dc.subject.decsregulación de la expresión génica *
dc.subject.decsanimales *
dc.subject.decscariotipificación *
dc.subject.decsproteínas de unión al ADN *
dc.subject.decsproteínas del ciclo celular *
dc.subject.decsfactores de transcripción *


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