CAPRIN1P512L causes aberrant protein aggregation and associates with early-onset ataxia

CAPRIN1 is a ubiquitously expressed protein, abundant in the brain, where it regulates the transport and translation of mRNAs of genes involved in synaptic plasticity. Here we describe two unrelated children, who developed early-onset ataxia, dysarthria, cognitive decline and muscle weakness. Trio e...

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Veröffentlicht in:	Cellular and molecular life sciences : CMLS 2022-10, Vol.79 (10), p.526-526, Article 526
Hauptverfasser:	Delle Vedove, Andrea, Natarajan, Janani, Zanni, Ginevra, Eckenweiler, Matthias, Muiños-Bühl, Anixa, Storbeck, Markus, Guillén Boixet, Jordina, Barresi, Sabina, Pizzi, Simone, Hölker, Irmgard, Körber, Friederike, Franzmann, Titus M., Bertini, Enrico S., Kirschner, Janbernd, Alberti, Simon, Tartaglia, Marco, Wirth, Brunhilde
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Sprache:	eng
Schlagworte:	Age Agglomeration Ataxia Autism Binding sites Biochemistry Biomedical and Life Sciences Biomedicine Cell Biology Cell cycle Cloning Cognitive ability CRISPR Fluorimetry Genetics Hospitals Life Sciences Muscles Mutagenesis Mutation Neurodegeneration Neurodegenerative diseases Original Original Article Phase transitions Protein interaction Proteins Rare diseases Residues Ribonucleic acid RNA Spectrum analysis Synaptic plasticity
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creator	Delle Vedove, Andrea Natarajan, Janani Zanni, Ginevra Eckenweiler, Matthias Muiños-Bühl, Anixa Storbeck, Markus Guillén Boixet, Jordina Barresi, Sabina Pizzi, Simone Hölker, Irmgard Körber, Friederike Franzmann, Titus M. Bertini, Enrico S. Kirschner, Janbernd Alberti, Simon Tartaglia, Marco Wirth, Brunhilde
description	CAPRIN1 is a ubiquitously expressed protein, abundant in the brain, where it regulates the transport and translation of mRNAs of genes involved in synaptic plasticity. Here we describe two unrelated children, who developed early-onset ataxia, dysarthria, cognitive decline and muscle weakness. Trio exome sequencing unraveled the identical de novo c.1535C > T (p.Pro512Leu) missense variant in CAPRIN1 , affecting a highly conserved residue. In silico analyses predict an increased aggregation propensity of the mutated protein. Indeed, overexpressed CAPRIN1 P512L forms insoluble ubiquitinated aggregates, sequestrating proteins associated with neurodegenerative disorders (ATXN2, GEMIN5, SNRNP200 and SNCA). Moreover, the CAPRIN1 P512L mutation in isogenic iPSC-derived cortical neurons causes reduced neuronal activity and altered stress granule dynamics. Furthermore, nano-differential scanning fluorimetry reveals that CAPRIN1 P512L aggregation is strongly enhanced by RNA in vitro. These findings associate the gain-of-function Pro512Leu mutation to early-onset ataxia and neurodegeneration, unveiling a critical residue of CAPRIN1 and a key role of RNA–protein interactions.
doi_str_mv	10.1007/s00018-022-04544-3
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Here we describe two unrelated children, who developed early-onset ataxia, dysarthria, cognitive decline and muscle weakness. Trio exome sequencing unraveled the identical de novo c.1535C > T (p.Pro512Leu) missense variant in CAPRIN1 , affecting a highly conserved residue. In silico analyses predict an increased aggregation propensity of the mutated protein. Indeed, overexpressed CAPRIN1 P512L forms insoluble ubiquitinated aggregates, sequestrating proteins associated with neurodegenerative disorders (ATXN2, GEMIN5, SNRNP200 and SNCA). Moreover, the CAPRIN1 P512L mutation in isogenic iPSC-derived cortical neurons causes reduced neuronal activity and altered stress granule dynamics. Furthermore, nano-differential scanning fluorimetry reveals that CAPRIN1 P512L aggregation is strongly enhanced by RNA in vitro. 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Mol. Life Sci</addtitle><description>CAPRIN1 is a ubiquitously expressed protein, abundant in the brain, where it regulates the transport and translation of mRNAs of genes involved in synaptic plasticity. Here we describe two unrelated children, who developed early-onset ataxia, dysarthria, cognitive decline and muscle weakness. Trio exome sequencing unraveled the identical de novo c.1535C > T (p.Pro512Leu) missense variant in CAPRIN1 , affecting a highly conserved residue. In silico analyses predict an increased aggregation propensity of the mutated protein. Indeed, overexpressed CAPRIN1 P512L forms insoluble ubiquitinated aggregates, sequestrating proteins associated with neurodegenerative disorders (ATXN2, GEMIN5, SNRNP200 and SNCA). Moreover, the CAPRIN1 P512L mutation in isogenic iPSC-derived cortical neurons causes reduced neuronal activity and altered stress granule dynamics. 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subjects	Age Agglomeration Ataxia Autism Binding sites Biochemistry Biomedical and Life Sciences Biomedicine Cell Biology Cell cycle Cloning Cognitive ability CRISPR Fluorimetry Genetics Hospitals Life Sciences Muscles Mutagenesis Mutation Neurodegeneration Neurodegenerative diseases Original Original Article Phase transitions Protein interaction Proteins Rare diseases Residues Ribonucleic acid RNA Spectrum analysis Synaptic plasticity
title	CAPRIN1P512L causes aberrant protein aggregation and associates with early-onset ataxia
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