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Sigma-1 receptor chaperones rescue nucleocytoplasmic transport deficit seen in cellular and Drosophila ALS/FTD models

Pin-Tse Lee, Jean-Charles Liévens, Shao‐Ming Wang, Jian‐Ying Chuang, Bilal Khalil, Hsiang-en Wu, Wen‐Chang Chang, Tangui Maurice, Tsung‐Ping Su

2020Nature Communications40 citationsDOIOpen Access PDF

Abstract

In a subgroup of patients with amyotrophic lateral sclerosis (ALS)/Frontotemporal dementia (FTD), the (G4C2)-RNA repeat expansion from C9orf72 chromosome binds to the Ran-activating protein (RanGAP) at the nuclear pore, resulting in nucleocytoplasmic transport deficit and accumulation of Ran in the cytosol. Here, we found that the sigma-1 receptor (Sig-1R), a molecular chaperone, reverses the pathological effects of (G4C2)-RNA repeats in cell lines and in Drosophila. The Sig-1R colocalizes with RanGAP and nuclear pore proteins (Nups) and stabilizes the latter. Interestingly, Sig-1Rs directly bind (G4C2)-RNA repeats. Overexpression of Sig-1Rs rescues, whereas the Sig-1R knockout exacerbates, the (G4C2)-RNA repeats-induced aberrant cytoplasmic accumulation of Ran. In Drosophila, Sig-1R (but not the Sig-1R-E102Q mutant) overexpression reverses eye necrosis, climbing deficit, and firing discharge caused by (G4C2)-RNA repeats. These results on a molecular chaperone at the nuclear pore suggest that Sig-1Rs may benefit patients with C9orf72 ALS/FTD by chaperoning the nuclear pore assembly and sponging away deleterious (G4C2)-RNA repeats.

Topics & Concepts

C9orf72Trinucleotide repeat expansionBiologyAnkyrin repeatRNACell biologyRanNuclear poreNuclear transportGeneticsCell nucleusCytoplasmGeneAllelePharmacological Receptor Mechanisms and EffectsIon channel regulation and functionCholinesterase and Neurodegenerative Diseases
Sigma-1 receptor chaperones rescue nucleocytoplasmic transport deficit seen in cellular and Drosophila ALS/FTD models | Litcius