HspB8 prevents aberrant phase transitions of FUS by chaperoning its folded RNA-binding domain

Aberrant liquid-to-solid phase transitions of biomolecular condensates have been linked to various neurodegenerative diseases. However, the underlying molecular interactions that drive aging remain enigmatic. Here, we develop quantitative time-resolved crosslinking mass spectrometry to monitor prote...

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Autores principales: Boczek, Edgar E, Fürsch, Julius, Niedermeier, Marie Laura, Jawerth, Louise, Jahnel, Marcus, Ruer-Gruß, Martine, Kammer, Kai-Michael, Heid, Peter, Mediani, Laura, Wang, Jie, Yan, Xiao, Pozniakovski, Andrej, Poser, Ina, Mateju, Daniel, Hubatsch, Lars, Carra, Serena, Alberti, Simon, Hyman, Anthony A, Stengel, Florian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2021
Materias:
Biochemistry and Chemical Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8510580/
https://www.ncbi.nlm.nih.gov/pubmed/34487489
http://dx.doi.org/10.7554/eLife.69377
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author Boczek, Edgar E
Fürsch, Julius
Niedermeier, Marie Laura
Jawerth, Louise
Jahnel, Marcus
Ruer-Gruß, Martine
Kammer, Kai-Michael
Heid, Peter
Mediani, Laura
Wang, Jie
Yan, Xiao
Pozniakovski, Andrej
Poser, Ina
Mateju, Daniel
Hubatsch, Lars
Carra, Serena
Alberti, Simon
Hyman, Anthony A
Stengel, Florian
author_facet Boczek, Edgar E
Fürsch, Julius
Niedermeier, Marie Laura
Jawerth, Louise
Jahnel, Marcus
Ruer-Gruß, Martine
Kammer, Kai-Michael
Heid, Peter
Mediani, Laura
Wang, Jie
Yan, Xiao
Pozniakovski, Andrej
Poser, Ina
Mateju, Daniel
Hubatsch, Lars
Carra, Serena
Alberti, Simon
Hyman, Anthony A
Stengel, Florian
author_sort Boczek, Edgar E
collection PubMed
description Aberrant liquid-to-solid phase transitions of biomolecular condensates have been linked to various neurodegenerative diseases. However, the underlying molecular interactions that drive aging remain enigmatic. Here, we develop quantitative time-resolved crosslinking mass spectrometry to monitor protein interactions and dynamics inside condensates formed by the protein fused in sarcoma (FUS). We identify misfolding of the RNA recognition motif of FUS as a key driver of condensate aging. We demonstrate that the small heat shock protein HspB8 partitions into FUS condensates via its intrinsically disordered domain and prevents condensate hardening via condensate-specific interactions that are mediated by its α-crystallin domain (αCD). These αCD-mediated interactions are altered in a disease-associated mutant of HspB8, which abrogates the ability of HspB8 to prevent condensate hardening. We propose that stabilizing aggregation-prone folded RNA-binding domains inside condensates by molecular chaperones may be a general mechanism to prevent aberrant phase transitions.
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spelling pubmed-85105802021-10-13 HspB8 prevents aberrant phase transitions of FUS by chaperoning its folded RNA-binding domain Boczek, Edgar E Fürsch, Julius Niedermeier, Marie Laura Jawerth, Louise Jahnel, Marcus Ruer-Gruß, Martine Kammer, Kai-Michael Heid, Peter Mediani, Laura Wang, Jie Yan, Xiao Pozniakovski, Andrej Poser, Ina Mateju, Daniel Hubatsch, Lars Carra, Serena Alberti, Simon Hyman, Anthony A Stengel, Florian eLife Biochemistry and Chemical Biology Aberrant liquid-to-solid phase transitions of biomolecular condensates have been linked to various neurodegenerative diseases. However, the underlying molecular interactions that drive aging remain enigmatic. Here, we develop quantitative time-resolved crosslinking mass spectrometry to monitor protein interactions and dynamics inside condensates formed by the protein fused in sarcoma (FUS). We identify misfolding of the RNA recognition motif of FUS as a key driver of condensate aging. We demonstrate that the small heat shock protein HspB8 partitions into FUS condensates via its intrinsically disordered domain and prevents condensate hardening via condensate-specific interactions that are mediated by its α-crystallin domain (αCD). These αCD-mediated interactions are altered in a disease-associated mutant of HspB8, which abrogates the ability of HspB8 to prevent condensate hardening. We propose that stabilizing aggregation-prone folded RNA-binding domains inside condensates by molecular chaperones may be a general mechanism to prevent aberrant phase transitions. eLife Sciences Publications, Ltd 2021-09-06 /pmc/articles/PMC8510580/ /pubmed/34487489 http://dx.doi.org/10.7554/eLife.69377 Text en © 2021, Boczek et al https://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Biochemistry and Chemical Biology
Boczek, Edgar E
Fürsch, Julius
Niedermeier, Marie Laura
Jawerth, Louise
Jahnel, Marcus
Ruer-Gruß, Martine
Kammer, Kai-Michael
Heid, Peter
Mediani, Laura
Wang, Jie
Yan, Xiao
Pozniakovski, Andrej
Poser, Ina
Mateju, Daniel
Hubatsch, Lars
Carra, Serena
Alberti, Simon
Hyman, Anthony A
Stengel, Florian
HspB8 prevents aberrant phase transitions of FUS by chaperoning its folded RNA-binding domain
title HspB8 prevents aberrant phase transitions of FUS by chaperoning its folded RNA-binding domain
title_full HspB8 prevents aberrant phase transitions of FUS by chaperoning its folded RNA-binding domain
title_fullStr HspB8 prevents aberrant phase transitions of FUS by chaperoning its folded RNA-binding domain
title_full_unstemmed HspB8 prevents aberrant phase transitions of FUS by chaperoning its folded RNA-binding domain
title_short HspB8 prevents aberrant phase transitions of FUS by chaperoning its folded RNA-binding domain
title_sort hspb8 prevents aberrant phase transitions of fus by chaperoning its folded rna-binding domain
topic Biochemistry and Chemical Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8510580/
https://www.ncbi.nlm.nih.gov/pubmed/34487489
http://dx.doi.org/10.7554/eLife.69377
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