Regulation of FXR1 by alternative splicing is required for muscle development and controls liquid-like condensates in muscle cells

Smith, Jean A.; Curry, Ennessa G.; Blue, R. Eric; Roden, Christine; Dundon, Samantha E. R.; Rodríguez-Vargas, Anthony; Jordan, Danielle C.; Chen, Xiaomin; Lyons, Shawn M.; Crutchley, John; Anderson, Paul; Horb, Marko E.; Gladfelter, Amy S.; Giudice, Jimena

doi:10.1101/818476

Cited by 4 publications

(2 citation statements)

References 54 publications

(49 reference statements)

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“…We also fused a nuclear export signal (NES) to APEX to serve as a cytoplasmic control bait (Hung et al, 2016), which was used previously in SG APEX studies (Markmiller et al, 2018). To avoid overexpression artifacts, including aberrations of organelle assembly dynamics or size (Anderson and Kedersha, 2008), tet-inducible FMR1-APEX and FXR1-APEX constructs were transfected to CRISPR-edited U2OS cells lacking FMR1/FXR1/FXR2 (Smith et al, 2019), whereas a tet-inducible G3BP1-APEX construct was transfected to a previously described U2OS line lacking G3BP1/G3BP2 (Kedersha et al, 2016). We titrated induction of APEX expression by tetracycline, in isolated clones, to approximate endogenous expression levels and to be comparable across all baits (Figures S1A and S1B).…”

Section: Resultsmentioning

confidence: 99%

Spatiotemporal Proteomic Analysis of Stress Granule Disassembly Using APEX Reveals Regulation by SUMOylation and Links to ALS Pathogenesis

et al. 2020

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Section: Resultsmentioning

confidence: 99%

Spatiotemporal Proteomic Analysis of Stress Granule Disassembly Using APEX Reveals Regulation by SUMOylation and Links to ALS Pathogenesis

et al. 2020

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“…We also fused a nuclear export signal (NES) to APEX to serve as a cytoplasm reference. To avoid overexpression artefacts including aberrations of organelle assembly dynamics or size , tet-inducible FMR1-APEX and FXR1-APEX constructs were transfected to CRISPR-edited U2OS cells lacking FMR1/FXR1/FXR2 (Smith et al, 2019), whereas a tet-inducible G3BP1-APEX construct was transfected to a previously described U2OS line lacking G3BP1/G3BP2 (Kedersha et al, 2016). We selected single clones that displayed comparable construct expression and titrated induction by tetracycline to approximate endogenous expression levels and to be comparable across all baits ( Fig.…”

Section: Comprehensive Sg Proteomic Analysis By Multi-bait Apex Proximentioning

confidence: 99%

Spatio-temporal Proteomic Analysis of Stress Granule disassembly using APEX Reveals Regulation by SUMOylation and links to ALS pathogenesis

Siany

Kedersha

Knafo

et al. 2020

Preprint

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Highlights• Multi bait APEX proximity labelling reveals 109 novel SG proteins and two distinct SG substructures.• Proteomic dissection of SG temporal disassembly under basal conditions and with a model of neurodegeneration. SummaryCytoplasmic stress granules (SG) form in response to a variety of cellular stresses by phase-separation of proteins associated with non-translating mRNAs. SG provide insight into the biology of neurodegeneration, including amyotrophic lateral sclerosis (ALS) because they approximate some of the molecular conditions for nucleation of insoluble aggregates in neuropathological inclusions.Whereas much has been learned about SG formation, a major gap remains in understanding the compositional changes SG undergo during normal disassembly and under disease conditions. Here, we address this gap by proteomic dissection of SG temporal disassembly sequence, using multi-bait APEX proximity-proteomics. We discover 109 novel SG-proteins and characterize at proteomic resolution two biophysically distinct SG substructures. We further demonstrate that dozens of additional proteins are recruited to SG specifically during disassembly, indicating that it is a highly regulated process. The involved proteins link SG disassembly, to mitochondrial biology and the cytoskeleton. Parallel analysis with C9ORF72-associated dipeptides, which are found in patients with ALS and frontotemporal dementia, demonstrated compositional changes in SG during the course of disassembly and focused our attention on the roles SUMOylation in SG disassembly. We demonstrate that broad SUMOylation of SG-proteins is required for SG disassembly and is impaired by C9ORF72-associated dipeptides, representing an unexplored potential molecular mechanism of neurodegeneration. Altogether, out study fundamentally increases the knowledge about SG composition in human cells by dissecting the SG spatio-temporal proteomic landscape, provides an in-depth resource for future work on SG function and reveals basic and disease-relevant mechanisms of SG disassembly.

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Collective Learnings of Studies of Stress Granule Assembly and Composition

Sidibé

Velde

2022

Methods in Molecular Biology

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Regulation of FXR1 by alternative splicing is required for muscle development and controls liquid-like condensates in muscle cells

Cited by 4 publications

References 54 publications

Spatiotemporal Proteomic Analysis of Stress Granule Disassembly Using APEX Reveals Regulation by SUMOylation and Links to ALS Pathogenesis

Spatiotemporal Proteomic Analysis of Stress Granule Disassembly Using APEX Reveals Regulation by SUMOylation and Links to ALS Pathogenesis

Spatio-temporal Proteomic Analysis of Stress Granule disassembly using APEX Reveals Regulation by SUMOylation and links to ALS pathogenesis

Collective Learnings of Studies of Stress Granule Assembly and Composition

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