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. 2025 Mar 5;33(3):1226-1245.
doi: 10.1016/j.ymthe.2025.01.004. Epub 2025 Jan 10.

Artificial enforcement of the unfolded protein response reduces disease features in multiple preclinical models of ALS/FTD

Vicente Valenzuela  1 Daniela Becerra  1 José I Astorga  1 Matías Fuentealba  2 Guillermo Diaz  1 Leslie Bargsted  3 Carlos Chacón  1 Alexis Martinez  1 Romina Gozalvo  1 Kasey Jackson  4 Vania Morales  1 Macarena Las Heras  1 Giovanni Tamburini  1 Leonard Petrucelli  5 S Pablo Sardi  4 Lars Plate  6 Claudio Hetz  7
Affiliations

Artificial enforcement of the unfolded protein response reduces disease features in multiple preclinical models of ALS/FTD

Vicente Valenzuela et al. Mol Ther. .

Abstract

Amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) are part of a spectrum of diseases that share several causative genes, resulting in a combinatory of motor and cognitive symptoms and abnormal protein aggregation. Multiple unbiased studies have revealed that proteostasis impairment at the level of the endoplasmic reticulum (ER) is a transversal pathogenic feature of ALS/FTD. The transcription factor XBP1s is a master regulator of the unfolded protein response (UPR), the main adaptive pathway to cope with ER stress. Here, we provide evidence of suboptimal activation of the UPR in ALS/FTD models under experimental ER stress. To artificially engage the UPR, we intracerebroventricularly administrated adeno-associated viruses (AAVs) to express the active form of XBP1 (XBP1s) in the nervous system of ALS/FTD models. XBP1s expression improved motor performance and extended lifespan of mutant SOD1 mice, associated with reduced protein aggregation. AAV-XBP1s administration also attenuated disease progression in models of TDP-43 and C9orf72 pathogenesis. Proteomic profiling of spinal cord tissue revealed that XBP1s overexpression improved proteostasis and modulated the expression of a cluster of synaptic and cell morphology proteins. Our results suggest that strategies to improve ER proteostasis may serve as a pan-therapeutic strategy to treat ALS/FTD.

Keywords: ER stress; XBP1; amyotrophic lateral sclerosis; frontotemporal dementia; gene therapy; protein aggregation; unfolded protein response.

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Conflict of interest statement

Declaration of interests C.H. and V.V. are co-inventors in a patent application to use AAV2-XBP1s to treat ALS patients that was licensed to UCB, Belgium. PCT/CL2016/000056, WO2017059554A1.

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