Author:
Cabral-Miranda Felipe,Tamburini Giovani,Martinez Gabriela,Medinas Danilo,Gerakis Yannis,Miedema Tim,Duran-Aniotz Claudia,Ardiles Alvaro O.,Gonzalez Cristobal,Sabusap Carleen,Bermedo-Garcia Francisca,Adamson Stuart,Vitangcol Kaitlyn,Huerta Hernan,Zhang Xu,Nakamura Tomohiro,Sardi Sergio Pablo,Lipton Stuart A.,Kenedy Brian K.,Cárdenas Julio Cesar,Palacios Adrian G.,Plate Lars,Henriquez Juan Pablo,Hetz Claudio
Abstract
AbstractAging is the major risk factor for the development of dementia and neurodegenerative disorders, and the aging brain manifests severe deficits in buffering capacity by the proteostasis network. Accordingly, we investigated the significance of the unfolded protein response (UPR), a major signaling pathway that copes with endoplasmic reticulum (ER) stress, to normal mammalian brain aging. Genetic disruption of ER stress sensor IRE1α accelerated cognitive and motor dysfunction during aging. Exogenous bolstering of the UPR by overexpressing an active form of the transcription factor XBP1 restored synaptic and cognitive function in addition to reducing cell senescence. Remarkably, proteomic profiling of hippocampal tissue indicated that XBP1s expression corrected age-related alterations in synaptic function. Collectively, our data demonstrate that strategies to manipulate the UPR sustain healthy brain aging.One Sentence SummaryThe IRE1/XBP1 pathway dictates when and how brain function declines during aging.
Publisher
Cold Spring Harbor Laboratory
Cited by
14 articles.
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