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dc.contributorUniv Mayor, Fac Sci, Ctr Integrat Biol, Chilees
dc.contributor.authorGorostieta-Salas, Elisa
dc.contributor.authorMoreno-Blas, Daniel
dc.contributor.authorGerónimo-Olvera, Cristian [Univ Mayor, Fac Sci, Ctr Integrat Biol, Chile]
dc.contributor.authorCisneros, Bulmaro
dc.contributor.authorCourt, Felipe A. [Univ Mayor, Fac Sci, Ctr Integrat Biol, Chile]
dc.contributor.authorCastro-Obregón, Susana
dc.date.accessioned2023-12-27T18:20:47Z
dc.date.available2023-12-27T18:20:47Z
dc.date.issued2021-08-16
dc.identifier.citationGorostieta-Salas, E., Moreno-Blas, D., Gerónimo-Olvera, C., Cisneros, B., & Castro-Obregón, S. (2021). Enhanced activity of exportin-1/CRM1 in neurons contributes to autophagy dysfunction and senescent features in old mouse brain. Oxidative Medicine and Cellular Longevity, 2021.es
dc.identifier.issn1942-0900
dc.identifier.issneISSN 1942-0994
dc.identifier.otherWOS: 000691141500001
dc.identifier.otherPMID: 34434486
dc.identifier.urihttps://repositorio.umayor.cl/xmlui/handle/sibum/9165
dc.identifier.urihttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC8382534/pdf/OMCL2021-6682336.pdf
dc.identifier.urihttps://doi.org/10.1155%2F2021%2F6682336
dc.identifier.urihttps://downloads.hindawi.com/journals/omcl/2021/6682336.pdf?_gl=1*17urkrp*_ga*MTE5MzM2ODk3Ni4xNzAzNzAxMTg2*_ga_NF5QFMJT5V*MTcwMzcwMTE4Ni4xLjAuMTcwMzcwMTE4Ni42MC4wLjA.&_ga=2.98968541.2140624633.1703701186-1193368976.1703701186
dc.description.abstractBrain aging is characterized by dysfunctional autophagy and cellular senescence, among other features. While autophagy can either promote or suppress cellular senescence in proliferating cells, in postmitotic cells, such as neurons, autophagy impairment promotes cellular senescence. CRM1 (exportin-1/XPO1) exports hundreds of nuclear proteins into the cytoplasm, including the transcription factors TFEB (the main inducer of autophagy and lysosomal biogenesis genes) and STAT3, another autophagy modulator. It appears that CRM1 is a modulator of aging-associated senescence and autophagy, because pharmacological inhibition of CRM1 improved autophagic degradation in flies, by increasing nuclear TFEB levels, and because enhanced CRM1 activity is mechanistically linked to senescence in fibroblasts from Hutchinson-Gilford progeria syndrome patients and old healthy individuals; furthermore, the exogenous overexpression of CRM1 induced senescence in normal fibroblasts. In this work, we tested the hypothesis that impaired autophagic flux during brain aging occurs due to CRM1 accumulation in the brain. We found that CRM1 levels and activity increased in the hippocampus and cortex during physiological aging, which resulted in a decrease of nuclear TFEB and STAT3. Consistent with an autophagic flux impairment, we observed accumulation of the autophagic receptor p62/SQSTM1 in neurons of old mice, which correlated with increased neuronal senescence. Using an in vitro model of neuronal senescence, we demonstrate that CRM1 inhibition improved autophagy flux and reduced SA-beta-gal activity by restoring TFEB nuclear localization. Collectively, our data suggest that enhanced CRM1-mediated export of proteins during brain aging perturbs neuronal homeostasis, contributing to autophagy impairment, and neuronal senescence.es
dc.description.sponsorshipWe are thankful to Dr. Beatriz Aguilar and Biol. Teresa Montiel for their technical assistance. We acknowledge the technical advice given by Dr. Abraham Rosas and Dr. Ruth Rincon at the Imagenology Unit for confocal microscopy analysis; we are thankful to Claudia Rivero at the Animal Facility and to M.C. Ana Maria Escalante and Francisco Perez at the IT Unit, as well as to Aurey Galvan and Manuel Ortinez at the Equipment Maintenance Workshop, all at the Instituto de Fisiologia Celular, UNAM. We thank Dr. Macarena Arrazola from Universidad Mayor for facilitating mice tissue. Funding: EGS had a CONACyT doctoral fellowship (586932) and data in this work is part of her doctoral dissertation in the Posgrado en Ciencias Biomedicas de la Universidad Nacional Autonoma de Mexico. DMB had a CONACyT doctoral fellowship (588372) and data in this work is part of his doctoral dissertation in the "Programa de Doctorado en Ciencias Bioquimicas de la Universidad Nacional Autonoma deMexico." This work was supported partially by grants CONACyT FC921, UNAMPAPIIT IN206518-IN209221, and a grant from the Secretaria de Educacion, Ciencia, Tecnologia e Innovacion de la Ciudad de Mexico SECTEI/008/2018 "Red Colaborativa de Investigacion Traslacional para el Envejecimiento Saludable de la Ciudad de Mexico (RECITES)" to SCO; CONACyT CF2019514879 to BC; FONDECYT-1190518, Geroscience Center for Brain Health and Metabolism (FONDAP-15150012) to FC, and FONDECYT Postdoctoral fellowship N degrees 3190608 to CGO. The publication of this paper was supported by a grant from the Secretaria de Educacion, Ciencia, Tecnologia e Innovacion de la Ciudad de Mexico CM-SECTEI/200/2020 "Red Colaborativa de Investigacion Traslacional para el Envejecimiento Saludable de la Ciudad de Mexico (RECITES)".es
dc.format.extent22 p., PDFes
dc.language.isoen_USes
dc.publisherHINDAWI LTDes
dc.rightsAttribution-NonCommercial-NoDerivs 3.0 Chilees
dc.titleEnhanced Activity of Exportin-1/CRM1 in Neurons Contributes to Autophagy Dysfunction and Senescent Features in Old Mouse Braines
dc.typeArtículo o Paperes
umayor.indizadorCOTes
umayor.indexadoWeb of Sciencees
umayor.indexadoScopuses
umayor.indexadoPUBMEDes
dc.identifier.doi10.1155/2021/6682336
umayor.indicadores.wos-(cuartil)Q2
umayor.indicadores.scopus-(scimago-sjr)SCIMAGO/ INDICE H: 134
umayor.indicadores.scopus-(scimago-sjr)SJR 1,32


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