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Sirt1 interaction with active Smad2 modulates transforming growth factor-ß regulated transcription

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dc.contributor.author García-Vizcaino, Eva-María
dc.contributor.author Liarte, Sergio
dc.contributor.author Alonso-Romero, José-Luis
dc.contributor.author Nicolás, Francisco-José
dc.date.accessioned 2026-01-22T07:31:57Z
dc.date.available 2026-01-22T07:31:57Z
dc.date.issued 2017-11-29
dc.identifier.citation García-Vizcaíno EM, Liarte S, Alonso-Romero JL, Nicolás FJ. Sirt1 interaction with active Smad2 modulates transforming growth factor-? regulated transcription. Cell Commun Signal. diciembre de 2017;15(1):50.
dc.identifier.issn 1478-811X
dc.identifier.uri https://sms.carm.es/ricsmur/handle/123456789/23907
dc.description.abstract BACKGROUND: The simplicity of Transforming Growth Factor ß (TGF?) signaling pathway, linear and non-amplified, hardly sustains its variety of responses. This is often justified by the complex regulation showed by Smad proteins, TGF? signaling intracellular transducers, object of post-translational modifications that modulate TGF?-dependent transcription. Protein acetylation is emerging as a compelling mechanism affecting the activities of significant transcription factors, including p53, FOXO or NF-kB. Smad proteins might be controlled by this mechanism, implying that accessory factors capable of altering Smads-transcriptional complexes acetylation status and hence regulate TGF? responses remain to be identified. Understanding this interaction may help in the assessment of TGF? signaling outcomes, extending from healthy physiology to pathological conditions and cancer. METHODS: A two-hybrid chimera interacting system allowed to identify Sirt1, a NAD+ dependent type III histone deacetylase, as a novel Smad2 interactor. Several well stablished cellular models were applied to characterize this interaction by means of co-immunoprecipitation of tagged proteins and immuno-fluorescence staining. The occurrence of the interaction at Smad2 driven transcriptomic complexes was studied by means of DNA-pull-down and chromatin immunoprecipitation (ChIP), while its effects were assessed by protein over-expression and siRNA applied into a TGF?-dependent reporter gene assay. RESULTS: The interaction was confirmed and observed to be enhanced upon Smad2 acetylation, a known feature of active and nuclear Smad2. However, Sirt1 did not play a major role in Smad2 deacetylation. Anti-Sirt1 ChIP showed increased recovery of promoter regions corresponding to Smad2-driven genes after TGF?-stimulation, while its occurrence at Smad2-dependent transcriptomic complexes on DNA was found to effectively modulate gene expression. CONCLUSIONS: Sirt1 presence on Smad2-driven TGF?-dependent regulatory elements was detected and found to increase after TGF? treatment. Moreover, Sirt1 overexpression resulted in a decrease of the activity of a Smad2-driven TGF?-dependent reporter gene, while Sirt1 interference increased its activity. This would confirm the relevance of the discovered Sirt1-Smad2 interaction for the regulation of TGF?-dependent gene transcription.
dc.language.iso eng
dc.publisher BMC
dc.rights Atribución/Reconocimiento-NoComercial-CompartirIgual 4.0 Internacional
dc.rights.uri https://creativecommons.org/licenses/by-nc-sa/4.0/deed.es *
dc.subject.mesh Acetylation
dc.subject.mesh Cell Line, Tumor
dc.subject.mesh Gene Expression Regulation, Neoplastic
dc.subject.mesh Humans
dc.subject.mesh Protein Binding
dc.subject.mesh Protein Domains
dc.subject.mesh Protein Transport
dc.subject.mesh Signal Transduction
dc.subject.mesh Sirtuin 1/chemistry/metabolism
dc.subject.mesh Smad2 Protein/chemistry/metabolism
dc.subject.mesh Transcription, Genetic
dc.subject.mesh Transforming Growth Factor beta/metabolism
dc.title Sirt1 interaction with active Smad2 modulates transforming growth factor-ß regulated transcription
dc.type info:eu-repo/semantics/article
dc.identifier.pmid 29187201
dc.relation.publisherversion https://biosignaling.biomedcentral.com/articles/10.1186/s12964-017-0205-y
dc.type.version info:eu-repo/semantics/publishedVersion
dc.identifier.doi 10.1186/s12964-017-0205-y
dc.journal.title Cell Communication and Signaling


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