The Yeast La Related Protein Slf1p Is a Key Activator of Translation during the Oxidative Stress Response

The mechanisms by which RNA-binding proteins control the translation of subsets of mRNAs are not yet clear. Slf1p and Sro9p are atypical-La motif containing proteins which are members of a superfamily of RNA-binding proteins conserved in eukaryotes. RIP-Seq analysis of these two yeast proteins ident...

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Autores principales: Kershaw, Christopher J., Costello, Joseph L., Castelli, Lydia M., Talavera, David, Rowe, William, Sims, Paul F. G., Ashe, Mark P., Hubbard, Simon J., Pavitt, Graham D., Grant, Chris M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4287443/
https://www.ncbi.nlm.nih.gov/pubmed/25569619
http://dx.doi.org/10.1371/journal.pgen.1004903
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author Kershaw, Christopher J.
Costello, Joseph L.
Castelli, Lydia M.
Talavera, David
Rowe, William
Sims, Paul F. G.
Ashe, Mark P.
Hubbard, Simon J.
Pavitt, Graham D.
Grant, Chris M.
author_facet Kershaw, Christopher J.
Costello, Joseph L.
Castelli, Lydia M.
Talavera, David
Rowe, William
Sims, Paul F. G.
Ashe, Mark P.
Hubbard, Simon J.
Pavitt, Graham D.
Grant, Chris M.
author_sort Kershaw, Christopher J.
collection PubMed
description The mechanisms by which RNA-binding proteins control the translation of subsets of mRNAs are not yet clear. Slf1p and Sro9p are atypical-La motif containing proteins which are members of a superfamily of RNA-binding proteins conserved in eukaryotes. RIP-Seq analysis of these two yeast proteins identified overlapping and distinct sets of mRNA targets, including highly translated mRNAs such as those encoding ribosomal proteins. In paralell, transcriptome analysis of slf1Δ and sro9Δ mutant strains indicated altered gene expression in similar functional classes of mRNAs following loss of each factor. The loss of SLF1 had a greater impact on the transcriptome, and in particular, revealed changes in genes involved in the oxidative stress response. slf1Δ cells are more sensitive to oxidants and RIP-Seq analysis of oxidatively stressed cells enriched Slf1p targets encoding antioxidants and other proteins required for oxidant tolerance. To quantify these effects at the protein level, we used label-free mass spectrometry to compare the proteomes of wild-type and slf1Δ strains following oxidative stress. This analysis identified several proteins which are normally induced in response to hydrogen peroxide, but where this increase is attenuated in the slf1Δ mutant. Importantly, a significant number of the mRNAs encoding these targets were also identified as Slf1p-mRNA targets. We show that Slf1p remains associated with the few translating ribosomes following hydrogen peroxide stress and that Slf1p co-immunoprecipitates ribosomes and members of the eIF4E/eIF4G/Pab1p ‘closed loop’ complex suggesting that Slf1p interacts with actively translated mRNAs following stress. Finally, mutational analysis of SLF1 revealed a novel ribosome interacting domain in Slf1p, independent of its RNA binding La-motif. Together, our results indicate that Slf1p mediates a translational response to oxidative stress via mRNA-specific translational control.
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spelling pubmed-42874432015-01-12 The Yeast La Related Protein Slf1p Is a Key Activator of Translation during the Oxidative Stress Response Kershaw, Christopher J. Costello, Joseph L. Castelli, Lydia M. Talavera, David Rowe, William Sims, Paul F. G. Ashe, Mark P. Hubbard, Simon J. Pavitt, Graham D. Grant, Chris M. PLoS Genet Research Article The mechanisms by which RNA-binding proteins control the translation of subsets of mRNAs are not yet clear. Slf1p and Sro9p are atypical-La motif containing proteins which are members of a superfamily of RNA-binding proteins conserved in eukaryotes. RIP-Seq analysis of these two yeast proteins identified overlapping and distinct sets of mRNA targets, including highly translated mRNAs such as those encoding ribosomal proteins. In paralell, transcriptome analysis of slf1Δ and sro9Δ mutant strains indicated altered gene expression in similar functional classes of mRNAs following loss of each factor. The loss of SLF1 had a greater impact on the transcriptome, and in particular, revealed changes in genes involved in the oxidative stress response. slf1Δ cells are more sensitive to oxidants and RIP-Seq analysis of oxidatively stressed cells enriched Slf1p targets encoding antioxidants and other proteins required for oxidant tolerance. To quantify these effects at the protein level, we used label-free mass spectrometry to compare the proteomes of wild-type and slf1Δ strains following oxidative stress. This analysis identified several proteins which are normally induced in response to hydrogen peroxide, but where this increase is attenuated in the slf1Δ mutant. Importantly, a significant number of the mRNAs encoding these targets were also identified as Slf1p-mRNA targets. We show that Slf1p remains associated with the few translating ribosomes following hydrogen peroxide stress and that Slf1p co-immunoprecipitates ribosomes and members of the eIF4E/eIF4G/Pab1p ‘closed loop’ complex suggesting that Slf1p interacts with actively translated mRNAs following stress. Finally, mutational analysis of SLF1 revealed a novel ribosome interacting domain in Slf1p, independent of its RNA binding La-motif. Together, our results indicate that Slf1p mediates a translational response to oxidative stress via mRNA-specific translational control. Public Library of Science 2015-01-08 /pmc/articles/PMC4287443/ /pubmed/25569619 http://dx.doi.org/10.1371/journal.pgen.1004903 Text en © 2015 Kershaw 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, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Kershaw, Christopher J.
Costello, Joseph L.
Castelli, Lydia M.
Talavera, David
Rowe, William
Sims, Paul F. G.
Ashe, Mark P.
Hubbard, Simon J.
Pavitt, Graham D.
Grant, Chris M.
The Yeast La Related Protein Slf1p Is a Key Activator of Translation during the Oxidative Stress Response
title The Yeast La Related Protein Slf1p Is a Key Activator of Translation during the Oxidative Stress Response
title_full The Yeast La Related Protein Slf1p Is a Key Activator of Translation during the Oxidative Stress Response
title_fullStr The Yeast La Related Protein Slf1p Is a Key Activator of Translation during the Oxidative Stress Response
title_full_unstemmed The Yeast La Related Protein Slf1p Is a Key Activator of Translation during the Oxidative Stress Response
title_short The Yeast La Related Protein Slf1p Is a Key Activator of Translation during the Oxidative Stress Response
title_sort yeast la related protein slf1p is a key activator of translation during the oxidative stress response
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4287443/
https://www.ncbi.nlm.nih.gov/pubmed/25569619
http://dx.doi.org/10.1371/journal.pgen.1004903
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