A Drosophila model of Pontocerebellar Hypoplasia reveals a critical role for the RNA exosome in neurons

The RNA exosome is an evolutionarily-conserved ribonuclease complex critically important for precise processing and/or complete degradation of a variety of cellular RNAs. The recent discovery that mutations in genes encoding structural RNA exosome subunits cause tissue-specific diseases makes defini...

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Autores principales: Morton, Derrick J., Jalloh, Binta, Kim, Lily, Kremsky, Isaac, Nair, Rishi J., Nguyen, Khuong B., Rounds, J. Christopher, Sterrett, Maria C., Brown, Brianna, Le, Thalia, Karkare, Maya C., McGaughey, Kathryn D., Sheng, Shaoyi, Leung, Sara W., Fasken, Milo B., Moberg, Kenneth H., Corbett, Anita H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2020
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7373318/
https://www.ncbi.nlm.nih.gov/pubmed/32645003
http://dx.doi.org/10.1371/journal.pgen.1008901
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author Morton, Derrick J.
Jalloh, Binta
Kim, Lily
Kremsky, Isaac
Nair, Rishi J.
Nguyen, Khuong B.
Rounds, J. Christopher
Sterrett, Maria C.
Brown, Brianna
Le, Thalia
Karkare, Maya C.
McGaughey, Kathryn D.
Sheng, Shaoyi
Leung, Sara W.
Fasken, Milo B.
Moberg, Kenneth H.
Corbett, Anita H.
author_facet Morton, Derrick J.
Jalloh, Binta
Kim, Lily
Kremsky, Isaac
Nair, Rishi J.
Nguyen, Khuong B.
Rounds, J. Christopher
Sterrett, Maria C.
Brown, Brianna
Le, Thalia
Karkare, Maya C.
McGaughey, Kathryn D.
Sheng, Shaoyi
Leung, Sara W.
Fasken, Milo B.
Moberg, Kenneth H.
Corbett, Anita H.
author_sort Morton, Derrick J.
collection PubMed
description The RNA exosome is an evolutionarily-conserved ribonuclease complex critically important for precise processing and/or complete degradation of a variety of cellular RNAs. The recent discovery that mutations in genes encoding structural RNA exosome subunits cause tissue-specific diseases makes defining the role of this complex within specific tissues critically important. Mutations in the RNA exosome component 3 (EXOSC3) gene cause Pontocerebellar Hypoplasia Type 1b (PCH1b), an autosomal recessive neurologic disorder. The majority of disease-linked mutations are missense mutations that alter evolutionarily-conserved regions of EXOSC3. The tissue-specific defects caused by these amino acid changes in EXOSC3 are challenging to understand based on current models of RNA exosome function with only limited analysis of the complex in any multicellular model in vivo. The goal of this study is to provide insight into how mutations in EXOSC3 impact the function of the RNA exosome. To assess the tissue-specific roles and requirements for the Drosophila ortholog of EXOSC3 termed Rrp40, we utilized tissue-specific RNAi drivers. Depletion of Rrp40 in different tissues reveals a general requirement for Rrp40 in the development of many tissues including the brain, but also highlight an age-dependent requirement for Rrp40 in neurons. To assess the functional consequences of the specific amino acid substitutions in EXOSC3 that cause PCH1b, we used CRISPR/Cas9 gene editing technology to generate flies that model this RNA exosome-linked disease. These flies show reduced viability; however, the surviving animals exhibit a spectrum of behavioral and morphological phenotypes. RNA-seq analysis of these Drosophila Rrp40 mutants reveals increases in the steady-state levels of specific mRNAs and ncRNAs, some of which are central to neuronal function. In particular, Arc1 mRNA, which encodes a key regulator of synaptic plasticity, is increased in the Drosophila Rrp40 mutants. Taken together, this study defines a requirement for the RNA exosome in specific tissues/cell types and provides insight into how defects in RNA exosome function caused by specific amino acid substitutions that occur in PCH1b can contribute to neuronal dysfunction.
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spelling pubmed-73733182020-08-04 A Drosophila model of Pontocerebellar Hypoplasia reveals a critical role for the RNA exosome in neurons Morton, Derrick J. Jalloh, Binta Kim, Lily Kremsky, Isaac Nair, Rishi J. Nguyen, Khuong B. Rounds, J. Christopher Sterrett, Maria C. Brown, Brianna Le, Thalia Karkare, Maya C. McGaughey, Kathryn D. Sheng, Shaoyi Leung, Sara W. Fasken, Milo B. Moberg, Kenneth H. Corbett, Anita H. PLoS Genet Research Article The RNA exosome is an evolutionarily-conserved ribonuclease complex critically important for precise processing and/or complete degradation of a variety of cellular RNAs. The recent discovery that mutations in genes encoding structural RNA exosome subunits cause tissue-specific diseases makes defining the role of this complex within specific tissues critically important. Mutations in the RNA exosome component 3 (EXOSC3) gene cause Pontocerebellar Hypoplasia Type 1b (PCH1b), an autosomal recessive neurologic disorder. The majority of disease-linked mutations are missense mutations that alter evolutionarily-conserved regions of EXOSC3. The tissue-specific defects caused by these amino acid changes in EXOSC3 are challenging to understand based on current models of RNA exosome function with only limited analysis of the complex in any multicellular model in vivo. The goal of this study is to provide insight into how mutations in EXOSC3 impact the function of the RNA exosome. To assess the tissue-specific roles and requirements for the Drosophila ortholog of EXOSC3 termed Rrp40, we utilized tissue-specific RNAi drivers. Depletion of Rrp40 in different tissues reveals a general requirement for Rrp40 in the development of many tissues including the brain, but also highlight an age-dependent requirement for Rrp40 in neurons. To assess the functional consequences of the specific amino acid substitutions in EXOSC3 that cause PCH1b, we used CRISPR/Cas9 gene editing technology to generate flies that model this RNA exosome-linked disease. These flies show reduced viability; however, the surviving animals exhibit a spectrum of behavioral and morphological phenotypes. RNA-seq analysis of these Drosophila Rrp40 mutants reveals increases in the steady-state levels of specific mRNAs and ncRNAs, some of which are central to neuronal function. In particular, Arc1 mRNA, which encodes a key regulator of synaptic plasticity, is increased in the Drosophila Rrp40 mutants. Taken together, this study defines a requirement for the RNA exosome in specific tissues/cell types and provides insight into how defects in RNA exosome function caused by specific amino acid substitutions that occur in PCH1b can contribute to neuronal dysfunction. Public Library of Science 2020-07-09 /pmc/articles/PMC7373318/ /pubmed/32645003 http://dx.doi.org/10.1371/journal.pgen.1008901 Text en © 2020 Morton et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Morton, Derrick J.
Jalloh, Binta
Kim, Lily
Kremsky, Isaac
Nair, Rishi J.
Nguyen, Khuong B.
Rounds, J. Christopher
Sterrett, Maria C.
Brown, Brianna
Le, Thalia
Karkare, Maya C.
McGaughey, Kathryn D.
Sheng, Shaoyi
Leung, Sara W.
Fasken, Milo B.
Moberg, Kenneth H.
Corbett, Anita H.
A Drosophila model of Pontocerebellar Hypoplasia reveals a critical role for the RNA exosome in neurons
title A Drosophila model of Pontocerebellar Hypoplasia reveals a critical role for the RNA exosome in neurons
title_full A Drosophila model of Pontocerebellar Hypoplasia reveals a critical role for the RNA exosome in neurons
title_fullStr A Drosophila model of Pontocerebellar Hypoplasia reveals a critical role for the RNA exosome in neurons
title_full_unstemmed A Drosophila model of Pontocerebellar Hypoplasia reveals a critical role for the RNA exosome in neurons
title_short A Drosophila model of Pontocerebellar Hypoplasia reveals a critical role for the RNA exosome in neurons
title_sort drosophila model of pontocerebellar hypoplasia reveals a critical role for the rna exosome in neurons
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7373318/
https://www.ncbi.nlm.nih.gov/pubmed/32645003
http://dx.doi.org/10.1371/journal.pgen.1008901
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