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Dual IRE1 RNase functions dictate glioblastoma development

dc.creatorLhomond S., Avril T., Dejeans N., Voutetakis K., Doultsinos D., McMahon M., Pineau R., Obacz J., Papadodima O., Jouan F., Bourien H., Logotheti M., Jégou G., Pallares-Lupon N., Schmit K., Le Reste P.-J., Etcheverry A., Mosser J., Barroso K., Vauléon E., Maurel M., Samali A., Patterson J.B., Pluquet O., Hetz C., Quillien V., Chatziioannou A., Chevet E.en
dc.date.accessioned2023-01-31T08:50:05Z
dc.date.available2023-01-31T08:50:05Z
dc.date.issued2018
dc.identifier10.15252/emmm.201707929
dc.identifier.issn17574676
dc.identifier.urihttp://hdl.handle.net/11615/75794
dc.description.abstractProteostasis imbalance is emerging as a major hallmark of cancer, driving tumor aggressiveness. Evidence suggests that the endoplasmic reticulum (ER), a major site for protein folding and quality control, plays a critical role in cancer development. This concept is valid in glioblastoma multiform (GBM), the most lethal primary brain cancer with no effective treatment. We previously demonstrated that the ER stress sensor IRE1α (referred to as IRE1) contributes to GBM progression, through XBP1 mRNA splicing and regulated IRE1-dependent decay (RIDD) of RNA. Here, we first demonstrated IRE1 signaling significance to human GBM and defined specific IRE1-dependent gene expression signatures that were confronted to human GBM transcriptomes. This approach allowed us to demonstrate the antagonistic roles of XBP1 mRNA splicing and RIDD on tumor outcomes, mainly through selective remodeling of the tumor stroma. This study provides the first demonstration of a dual role of IRE1 downstream signaling in cancer and opens a new therapeutic window to abrogate tumor progression. © 2018 The Authors. Published under the terms of the CC BY 4.0 licenseen
dc.language.isoenen
dc.sourceEMBO Molecular Medicineen
dc.source.urihttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85043258450&doi=10.15252%2femmm.201707929&partnerID=40&md5=433b00dd00bbd4513ecae97085786559
dc.subjectinositol requiring enzyme 1alphaen
dc.subjectmembrane proteinen
dc.subjectribonucleaseen
dc.subjectunclassified drugen
dc.subjectERN1 protein, humanen
dc.subjectmessenger RNAen
dc.subjectprotein serine threonine kinaseen
dc.subjectribonucleaseen
dc.subjecttumor proteinen
dc.subjectanimal cellen
dc.subjectanimal experimenten
dc.subjectanimal modelen
dc.subjectanimal tissueen
dc.subjectArticleen
dc.subjectcancer growthen
dc.subjectcarcinogenesisen
dc.subjectcontrolled studyen
dc.subjectendoplasmic reticulumen
dc.subjectgene expressionen
dc.subjectglioblastomaen
dc.subjecthumanen
dc.subjecthuman cellen
dc.subjectmaleen
dc.subjectmouseen
dc.subjectnonhumanen
dc.subjectpriority journalen
dc.subjectprotein foldingen
dc.subjectprotein homeostasisen
dc.subjectRNA splicingen
dc.subjectsignal transductionen
dc.subjecttherapeutic indexen
dc.subjectbiological modelen
dc.subjectbrain tumoren
dc.subjectenzymologyen
dc.subjectgene expression regulationen
dc.subjectgeneticsen
dc.subjectglioblastomaen
dc.subjectmetabolismen
dc.subjectmutationen
dc.subjectpathologyen
dc.subjectphenotypeen
dc.subjecttumor cell lineen
dc.subjecttumor microenvironmenten
dc.subjectBrain Neoplasmsen
dc.subjectCarcinogenesisen
dc.subjectCell Line, Tumoren
dc.subjectEndoribonucleasesen
dc.subjectGene Expression Regulation, Neoplasticen
dc.subjectGlioblastomaen
dc.subjectHumansen
dc.subjectModels, Biologicalen
dc.subjectMutationen
dc.subjectNeoplasm Proteinsen
dc.subjectPhenotypeen
dc.subjectProtein-Serine-Threonine Kinasesen
dc.subjectRNA Splicingen
dc.subjectRNA, Messengeren
dc.subjectSignal Transductionen
dc.subjectTumor Microenvironmenten
dc.subjectBlackwell Publishing Ltden
dc.titleDual IRE1 RNase functions dictate glioblastoma developmenten
dc.typejournalArticleen


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