SMN-primed ribosomes modulate the translation of transcripts related to Spinal Muscular Atrophy

Lauria, Fabio; Bernabò, Paola; Tebaldi, Toma; Groen, Ewout Joan Nicolaas; Perenthaler, Elena; Maniscalco, Federica; Rossi, Annalisa; Donzel, Deborah; Clamer, Massimiliano; Marchioretto, Marta; Omersa, Neža; Orri, Julia C; Serra, Mauro Dalla; Anderluh, Gregor; Quattrone, Alessandro; Inga, Alberto; Gillingwater, Thomas Henry; Viero, Gabriella

doi:10.1038/s41556-020-00577-7

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SMN-primed ribosomes modulate the translation of transcripts related to Spinal Muscular Atrophy

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Author(s): Fabio Lauria ¹ , Paola Bernabò ¹ , Toma Tebaldi ² , Ewout Joan Nicolaas Groen ³ ^, ⁴ , Elena Perenthaler ¹ , Federica Maniscalco ¹ ^, ² , Annalisa Rossi ² , Deborah Donzel ¹ , Massimiliano Clamer ⁵ , Marta Marchioretto ¹ , Neža Omersa ⁶ , Julia Orri ¹ ^, ⁷ , Mauro Dalla Serra ¹ , Gregor Anderluh ⁶ , Alessandro Quattrone ² , Alberto Inga ² , Thomas Henry Gillingwater ³ , Gabriella Viero ¹ ^, ^§

Publication date (Electronic): 21 September 2020

Journal: Nature cell biology

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Abstract

The contribution of ribosome heterogeneity and ribosome-associated proteins to the molecular control of proteomes in health and disease remains enigmatic. We demonstrate that Survival Motor Neuron (SMN) protein, loss of which causes the neuromuscular disease spinal muscular atrophy (SMA), binds to ribosomes and that this interaction is tissue-dependent. SMN-primed ribosomes are preferentially positioned within the first five codons of a set of mRNAs which are enriched for translational enhancer sequences in the 5’UTR and rare codons at the beginning of their coding sequence. These SMN-specific mRNAs are associated with neurogenesis, lipid metabolism, ubiquitination, chromatin regulation and translation. Loss of SMN induces ribosome depletion, especially at the beginning of the coding sequence of SMN-specific mRNAs, leading to impairment of proteins involved in motor neuron function and stability, including acetylcholinesterase. Thus, SMN plays a crucial role in the regulation of ribosome fluxes along mRNAs which encode proteins relevant to SMA pathogenesis.

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Most cited references 72

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Global quantification of mammalian gene expression control.

Björn Schwanhäusser, Dorothea Busse, Na Li … (2011)

Gene expression is a multistep process that involves the transcription, translation and turnover of messenger RNAs and proteins. Although it is one of the most fundamental processes of life, the entire cascade has never been quantified on a genome-wide scale. Here we simultaneously measured absolute mRNA and protein abundance and turnover by parallel metabolic pulse labelling for more than 5,000 genes in mammalian cells. Whereas mRNA and protein levels correlated better than previously thought, corresponding half-lives showed no correlation. Using a quantitative model we have obtained the first genome-scale prediction of synthesis rates of mRNAs and proteins. We find that the cellular abundance of proteins is predominantly controlled at the level of translation. Genes with similar combinations of mRNA and protein stability shared functional properties, indicating that half-lives evolved under energetic and dynamic constraints. Quantitative information about all stages of gene expression provides a rich resource and helps to provide a greater understanding of the underlying design principles.

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FMRP stalls ribosomal translocation on mRNAs linked to synaptic function and autism.

Jennifer Darnell, Sarah Van Driesche, Chaolin Zhang … (2011)

FMRP loss of function causes Fragile X syndrome (FXS) and autistic features. FMRP is a polyribosome-associated neuronal RNA-binding protein, suggesting that it plays a key role in regulating neuronal translation, but there has been little consensus regarding either its RNA targets or mechanism of action. Here, we use high-throughput sequencing of RNAs isolated by crosslinking immunoprecipitation (HITS-CLIP) to identify FMRP interactions with mouse brain polyribosomal mRNAs. FMRP interacts with the coding region of transcripts encoding pre- and postsynaptic proteins and transcripts implicated in autism spectrum disorders (ASD). We developed a brain polyribosome-programmed translation system, revealing that FMRP reversibly stalls ribosomes specifically on its target mRNAs. Our results suggest that loss of a translational brake on the synthesis of a subset of synaptic proteins contributes to FXS. In addition, they provide insight into the molecular basis of the cognitive and allied defects in FXS and ASD and suggest multiple targets for clinical intervention. Copyright © 2011 Elsevier Inc. All rights reserved.

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A method for the quantitative recovery of protein in dilute solution in the presence of detergents and lipids.

D Wessel, U.I. Flügge (1984)

A rapid method based on a defined methanol-chloroform-water mixture for the quantitative precipitation of soluble as well as hydrophobic proteins from dilute solutions (e.g., column chromatography effluents) has been developed. The effectiveness of this method is not affected by the presence of detergents, lipids, salt, buffers, and beta-mercaptoethanol.

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Author and article information

Journal

Journal ID (nlm-journal-id): 100890575

Journal ID (nlm-ta): Nat Cell Biol

Journal ID (iso-abbrev): Nat Cell Biol

Title: Nature cell biology

ISSN (Print): 1465-7392

ISSN (Electronic): 1476-4679

Publication date Nihms-submitted: 04 March 2021

Publication date (Print): 01 October 2020

Publication date (Electronic): 21 September 2020

Publication date PMC-release: 29 March 2021

Volume: 22

Issue: 10

Pages: 1239-1251

Affiliations

[1 ]Institute of Biophysics, CNR Unit at Trento, (Italy)

[2 ]Department CIBIO, University of Trento, Trento, (Italy)

[3 ]Edinburgh Medical School: Biomedical Sciences & Euan MacDonald Centre for Motor Neurone Disease Research, University of Edinburgh, Edinburgh, (UK)

[4 ]Department of Neurology and Neurosurgery, UMC Utrecht Brain Center, Utrecht, the Netherlands

[5 ]IMMAGINA Biotechnology s.r.l., Trento (Italy)

[6 ]National Institute of Chemistry, Ljubljana (Slovenia)

[7 ]La Fundació Jesuïtes Educació, Barcelona (Spain)

Author notes

[%]

Current address: Yale Comprehensive Cancer Center, Yale University School of Medicine, New Haven, CT, USA

[!]

Current address: Department of Clinical Genetics, Erasmus University Medical Center, Rotterdam, The Netherlands.

[*]

co-first authors

[£]

co-last authors

[§ ]corresponding author: gabriella.viero@ 123456cnr.it

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Manuscript ID: EMS117953

DOI: 10.1038/s41556-020-00577-7

PMC ID: 7610479

PubMed ID: 32958857

SO-VID: aa2cc32d-4ab8-4257-9a78-dd02be3b51ef

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SMN-primed ribosomes modulate the translation of transcripts related to Spinal Muscular Atrophy

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Most cited references 72

Global quantification of mammalian gene expression control.

FMRP stalls ribosomal translocation on mRNAs linked to synaptic function and autism.

A method for the quantitative recovery of protein in dilute solution in the presence of detergents and lipids.

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