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A “grappling hook” interaction connects self-assembly and chaperone activity of Nucleophosmin 1

How the self-assembly of partially disordered proteins generates functional compartments in the cytoplasm and particularly in the nucleus is poorly understood. Nucleophosmin 1 (NPM1) is an abundant nucleolar protein that forms large oligomers and undergoes liquid–liquid phase separation by binding R...

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Autores principales: Saluri, Mihkel, Leppert, Axel, Gese, Genis Valentin, Sahin, Cagla, Lama, Dilraj, Kaldmäe, Margit, Chen, Gefei, Elofsson, Arne, Allison, Timothy M, Arsenian-Henriksson, Marie, Johansson, Jan, Lane, David P, Hällberg, B Martin, Landreh, Michael
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9896144/
https://www.ncbi.nlm.nih.gov/pubmed/36743470
http://dx.doi.org/10.1093/pnasnexus/pgac303
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author Saluri, Mihkel
Leppert, Axel
Gese, Genis Valentin
Sahin, Cagla
Lama, Dilraj
Kaldmäe, Margit
Chen, Gefei
Elofsson, Arne
Allison, Timothy M
Arsenian-Henriksson, Marie
Johansson, Jan
Lane, David P
Hällberg, B Martin
Landreh, Michael
author_facet Saluri, Mihkel
Leppert, Axel
Gese, Genis Valentin
Sahin, Cagla
Lama, Dilraj
Kaldmäe, Margit
Chen, Gefei
Elofsson, Arne
Allison, Timothy M
Arsenian-Henriksson, Marie
Johansson, Jan
Lane, David P
Hällberg, B Martin
Landreh, Michael
author_sort Saluri, Mihkel
collection PubMed
description How the self-assembly of partially disordered proteins generates functional compartments in the cytoplasm and particularly in the nucleus is poorly understood. Nucleophosmin 1 (NPM1) is an abundant nucleolar protein that forms large oligomers and undergoes liquid–liquid phase separation by binding RNA or ribosomal proteins. It provides the scaffold for ribosome assembly but also prevents protein aggregation as part of the cellular stress response. Here, we use aggregation assays and native mass spectrometry (MS) to examine the relationship between the self-assembly and chaperone activity of NPM1. We find that oligomerization of full-length NPM1 modulates its ability to retard amyloid formation in vitro. Machine learning-based structure prediction and cryo-electron microscopy reveal fuzzy interactions between the acidic disordered region and the C-terminal nucleotide-binding domain, which cross-link NPM1 pentamers into partially disordered oligomers. The addition of basic peptides results in a tighter association within the oligomers, reducing their capacity to prevent amyloid formation. Together, our findings show that NPM1 uses a “grappling hook” mechanism to form a network-like structure that traps aggregation-prone proteins. Nucleolar proteins and RNAs simultaneously modulate the association strength and chaperone activity, suggesting a mechanism by which nucleolar composition regulates the chaperone activity of NPM1.
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spelling pubmed-98961442023-02-04 A “grappling hook” interaction connects self-assembly and chaperone activity of Nucleophosmin 1 Saluri, Mihkel Leppert, Axel Gese, Genis Valentin Sahin, Cagla Lama, Dilraj Kaldmäe, Margit Chen, Gefei Elofsson, Arne Allison, Timothy M Arsenian-Henriksson, Marie Johansson, Jan Lane, David P Hällberg, B Martin Landreh, Michael PNAS Nexus Research Report How the self-assembly of partially disordered proteins generates functional compartments in the cytoplasm and particularly in the nucleus is poorly understood. Nucleophosmin 1 (NPM1) is an abundant nucleolar protein that forms large oligomers and undergoes liquid–liquid phase separation by binding RNA or ribosomal proteins. It provides the scaffold for ribosome assembly but also prevents protein aggregation as part of the cellular stress response. Here, we use aggregation assays and native mass spectrometry (MS) to examine the relationship between the self-assembly and chaperone activity of NPM1. We find that oligomerization of full-length NPM1 modulates its ability to retard amyloid formation in vitro. Machine learning-based structure prediction and cryo-electron microscopy reveal fuzzy interactions between the acidic disordered region and the C-terminal nucleotide-binding domain, which cross-link NPM1 pentamers into partially disordered oligomers. The addition of basic peptides results in a tighter association within the oligomers, reducing their capacity to prevent amyloid formation. Together, our findings show that NPM1 uses a “grappling hook” mechanism to form a network-like structure that traps aggregation-prone proteins. Nucleolar proteins and RNAs simultaneously modulate the association strength and chaperone activity, suggesting a mechanism by which nucleolar composition regulates the chaperone activity of NPM1. Oxford University Press 2023-01-06 /pmc/articles/PMC9896144/ /pubmed/36743470 http://dx.doi.org/10.1093/pnasnexus/pgac303 Text en © The Author(s) 2023. Published by Oxford University Press on behalf of National Academy of Sciences. https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Report
Saluri, Mihkel
Leppert, Axel
Gese, Genis Valentin
Sahin, Cagla
Lama, Dilraj
Kaldmäe, Margit
Chen, Gefei
Elofsson, Arne
Allison, Timothy M
Arsenian-Henriksson, Marie
Johansson, Jan
Lane, David P
Hällberg, B Martin
Landreh, Michael
A “grappling hook” interaction connects self-assembly and chaperone activity of Nucleophosmin 1
title A “grappling hook” interaction connects self-assembly and chaperone activity of Nucleophosmin 1
title_full A “grappling hook” interaction connects self-assembly and chaperone activity of Nucleophosmin 1
title_fullStr A “grappling hook” interaction connects self-assembly and chaperone activity of Nucleophosmin 1
title_full_unstemmed A “grappling hook” interaction connects self-assembly and chaperone activity of Nucleophosmin 1
title_short A “grappling hook” interaction connects self-assembly and chaperone activity of Nucleophosmin 1
title_sort “grappling hook” interaction connects self-assembly and chaperone activity of nucleophosmin 1
topic Research Report
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9896144/
https://www.ncbi.nlm.nih.gov/pubmed/36743470
http://dx.doi.org/10.1093/pnasnexus/pgac303
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