Hsp90 Is Cleaved by Reactive Oxygen Species at a Highly Conserved N-Terminal Amino Acid Motif

Hsp90 is an essential chaperone that is necessary for the folding, stability and activity of numerous proteins. In this study, we demonstrate that free radicals formed during oxidative stress conditions can cleave Hsp90. This cleavage occurs through a Fenton reaction which requires the presence of r...

Descripción completa

Detalles Bibliográficos
Autores principales: Beck, Raphaël, Dejeans, Nicolas, Glorieux, Christophe, Creton, Mélanie, Delaive, Edouard, Dieu, Marc, Raes, Martine, Levêque, Philippe, Gallez, Bernard, Depuydt, Matthieu, Collet, Jean-François, Calderon, Pedro Buc, Verrax, Julien
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3407180/
https://www.ncbi.nlm.nih.gov/pubmed/22848402
http://dx.doi.org/10.1371/journal.pone.0040795
_version_ 1782239304884420608
author Beck, Raphaël
Dejeans, Nicolas
Glorieux, Christophe
Creton, Mélanie
Delaive, Edouard
Dieu, Marc
Raes, Martine
Levêque, Philippe
Gallez, Bernard
Depuydt, Matthieu
Collet, Jean-François
Calderon, Pedro Buc
Verrax, Julien
author_facet Beck, Raphaël
Dejeans, Nicolas
Glorieux, Christophe
Creton, Mélanie
Delaive, Edouard
Dieu, Marc
Raes, Martine
Levêque, Philippe
Gallez, Bernard
Depuydt, Matthieu
Collet, Jean-François
Calderon, Pedro Buc
Verrax, Julien
author_sort Beck, Raphaël
collection PubMed
description Hsp90 is an essential chaperone that is necessary for the folding, stability and activity of numerous proteins. In this study, we demonstrate that free radicals formed during oxidative stress conditions can cleave Hsp90. This cleavage occurs through a Fenton reaction which requires the presence of redox-active iron. As a result of the cleavage, we observed a disruption of the chaperoning function of Hsp90 and the degradation of its client proteins, for example, Bcr-Abl, RIP, c-Raf, NEMO and hTert. Formation of Hsp90 protein radicals on exposure to oxidative stress was confirmed by immuno-spin trapping. Using a proteomic analysis, we determined that the cleavage occurs in a conserved motif of the N-terminal nucleotide binding site, between Ile-126 and Gly-127 in Hsp90β, and between Ile-131 and Gly-132 in Hsp90α. Given the importance of Hsp90 in diverse biological functions, these findings shed new light on how oxidative stress can affect cellular homeostasis.
format Online
Article
Text
id pubmed-3407180
institution National Center for Biotechnology Information
language English
publishDate 2012
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-34071802012-07-30 Hsp90 Is Cleaved by Reactive Oxygen Species at a Highly Conserved N-Terminal Amino Acid Motif Beck, Raphaël Dejeans, Nicolas Glorieux, Christophe Creton, Mélanie Delaive, Edouard Dieu, Marc Raes, Martine Levêque, Philippe Gallez, Bernard Depuydt, Matthieu Collet, Jean-François Calderon, Pedro Buc Verrax, Julien PLoS One Research Article Hsp90 is an essential chaperone that is necessary for the folding, stability and activity of numerous proteins. In this study, we demonstrate that free radicals formed during oxidative stress conditions can cleave Hsp90. This cleavage occurs through a Fenton reaction which requires the presence of redox-active iron. As a result of the cleavage, we observed a disruption of the chaperoning function of Hsp90 and the degradation of its client proteins, for example, Bcr-Abl, RIP, c-Raf, NEMO and hTert. Formation of Hsp90 protein radicals on exposure to oxidative stress was confirmed by immuno-spin trapping. Using a proteomic analysis, we determined that the cleavage occurs in a conserved motif of the N-terminal nucleotide binding site, between Ile-126 and Gly-127 in Hsp90β, and between Ile-131 and Gly-132 in Hsp90α. Given the importance of Hsp90 in diverse biological functions, these findings shed new light on how oxidative stress can affect cellular homeostasis. Public Library of Science 2012-07-27 /pmc/articles/PMC3407180/ /pubmed/22848402 http://dx.doi.org/10.1371/journal.pone.0040795 Text en Beck 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
Beck, Raphaël
Dejeans, Nicolas
Glorieux, Christophe
Creton, Mélanie
Delaive, Edouard
Dieu, Marc
Raes, Martine
Levêque, Philippe
Gallez, Bernard
Depuydt, Matthieu
Collet, Jean-François
Calderon, Pedro Buc
Verrax, Julien
Hsp90 Is Cleaved by Reactive Oxygen Species at a Highly Conserved N-Terminal Amino Acid Motif
title Hsp90 Is Cleaved by Reactive Oxygen Species at a Highly Conserved N-Terminal Amino Acid Motif
title_full Hsp90 Is Cleaved by Reactive Oxygen Species at a Highly Conserved N-Terminal Amino Acid Motif
title_fullStr Hsp90 Is Cleaved by Reactive Oxygen Species at a Highly Conserved N-Terminal Amino Acid Motif
title_full_unstemmed Hsp90 Is Cleaved by Reactive Oxygen Species at a Highly Conserved N-Terminal Amino Acid Motif
title_short Hsp90 Is Cleaved by Reactive Oxygen Species at a Highly Conserved N-Terminal Amino Acid Motif
title_sort hsp90 is cleaved by reactive oxygen species at a highly conserved n-terminal amino acid motif
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3407180/
https://www.ncbi.nlm.nih.gov/pubmed/22848402
http://dx.doi.org/10.1371/journal.pone.0040795
work_keys_str_mv AT beckraphael hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT dejeansnicolas hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT glorieuxchristophe hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT cretonmelanie hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT delaiveedouard hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT dieumarc hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT raesmartine hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT levequephilippe hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT gallezbernard hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT depuydtmatthieu hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT colletjeanfrancois hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT calderonpedrobuc hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif
AT verraxjulien hsp90iscleavedbyreactiveoxygenspeciesatahighlyconservednterminalaminoacidmotif

Ejemplares similares