Bri2 BRICHOS client specificity and chaperone activity are governed by assembly state

Chen, Gefei; Abelein, Axel; Nilsson, Harriet E; Leppert, Axel; Andrade-Talavera, Yuniesky; Tambaro, Simone; Hemmingsson, Lovisa; Roshan, Firoz; Landreh, Michael; Biverstal, Henrik; Koeck, Philip J B; Presto, Jenny; Hebert, Hans; Fisahn, André; Johansson, Jan Thomas

doi:10.1038/s41467-017-02056-4

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Bri2 BRICHOS client specificity and chaperone activity are governed by assembly state

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Author(s): Gefei Chen ¹ , Axel Abelein ¹ , Harriet E. Nilsson ² , Axel Leppert ¹ , Yuniesky Andrade-Talavera ³ , Simone Tambaro ¹ , Lovisa Hemmingsson ¹ ^, ⁴ , Firoz Roshan ³ , Michael Landreh ⁵ ^, ⁶ , Henrik Biverstål ¹ ^, ⁷ , Philip J. B. Koeck ² , Jenny Presto ¹ , Hans Hebert ² , André Fisahn ³ , Jan Johansson ¹ ^,

Publication date (Electronic): 12 December 2017

Journal: Nature Communications

Publisher: Nature Publishing Group UK

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Abstract

Protein misfolding and aggregation is increasingly being recognized as a cause of disease. In Alzheimer’s disease the amyloid-β peptide (Aβ) misfolds into neurotoxic oligomers and assembles into amyloid fibrils. The Bri2 protein associated with Familial British and Danish dementias contains a BRICHOS domain, which reduces Aβ fibrillization as well as neurotoxicity in vitro and in a Drosophila model, but also rescues proteins from irreversible non-fibrillar aggregation. How these different activities are mediated is not known. Here we show that Bri2 BRICHOS monomers potently prevent neuronal network toxicity of Aβ, while dimers strongly suppress Aβ fibril formation. The dimers assemble into high-molecular-weight oligomers with an apparent two-fold symmetry, which are efficient inhibitors of non-fibrillar protein aggregation. These results indicate that Bri2 BRICHOS affects qualitatively different aspects of protein misfolding and toxicity via different quaternary structures, suggesting a means to generate molecular chaperone diversity.

Abstract

The BRICHOS domain is a chaperone that can act against amyloid-β peptide fibril formation and non-fibrillar protein aggregation. Here the authors use a multidisciplinary approach and show that the Bri2 BRICHOS domain has qualitatively different chaperone activities depending on its quaternary structure.

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Inherent toxicity of aggregates implies a common mechanism for protein misfolding diseases.

Monica Bucciantini, Elisa Giannoni, Fabrizio Chiti … (2002)

A range of human degenerative conditions, including Alzheimer's disease, light-chain amyloidosis and the spongiform encephalopathies, is associated with the deposition in tissue of proteinaceous aggregates known as amyloid fibrils or plaques. It has been shown previously that fibrillar aggregates that are closely similar to those associated with clinical amyloidoses can be formed in vitro from proteins not connected with these diseases, including the SH3 domain from bovine phosphatidyl-inositol-3'-kinase and the amino-terminal domain of the Escherichia coli HypF protein. Here we show that species formed early in the aggregation of these non-disease-associated proteins can be inherently highly cytotoxic. This finding provides added evidence that avoidance of protein aggregation is crucial for the preservation of biological function and suggests common features in the origins of this family of protein deposition diseases.

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An analytical solution to the kinetics of breakable filament assembly.

Tuomas P. J. Knowles, Christopher A Waudby, Glyn L. Devlin … (2009)

We present an analytical treatment of a set of coupled kinetic equations that governs the self-assembly of filamentous molecular structures. Application to the case of protein aggregation demonstrates that the kinetics of amyloid growth can often be dominated by secondary rather than by primary nucleation events. Our results further reveal a range of general features of the growth kinetics of fragmenting filamentous structures, including the existence of generic scaling laws that provide mechanistic information in contexts ranging from in vitro amyloid growth to the in vivo development of mammalian prion diseases.

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Extrinsic Fluorescent Dyes as Tools for Protein Characterization

Andrea Hawe, Marc Sutter, Wim Jiskoot (2008)

Noncovalent, extrinsic fluorescent dyes are applied in various fields of protein analysis, e.g. to characterize folding intermediates, measure surface hydrophobicity, and detect aggregation or fibrillation. The main underlying mechanisms, which explain the fluorescence properties of many extrinsic dyes, are solvent relaxation processes and (twisted) intramolecular charge transfer reactions, which are affected by the environment and by interactions of the dyes with proteins. In recent time, the use of extrinsic fluorescent dyes such as ANS, Bis-ANS, Nile Red, Thioflavin T and others has increased, because of their versatility, sensitivity and suitability for high-throughput screening. The intention of this review is to give an overview of available extrinsic dyes, explain their spectral properties, and show illustrative examples of their various applications in protein characterization.

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Author and article information

Contributors

Jan Johansson: janne.johansson@ki.se

Journal

Journal ID (nlm-ta): Nat Commun

Journal ID (iso-abbrev): Nat Commun

Title: Nature Communications

Publisher: Nature Publishing Group UK (London )

ISSN (Electronic): 2041-1723

Publication date (Electronic): 12 December 2017

Publication date PMC-release: 12 December 2017

Publication date Collection: 2017

Volume: 8

Electronic Location Identifier: 2081

Affiliations

[1 ]ISNI 0000 0004 1937 0626, GRID grid.4714.6, Department of Neurobiology, , Care Sciences and Society, Center for Alzheimer Research, Division of Neurogeriatrics, Karolinska Institutet, ; 141 57 Huddinge, Sweden

[2 ]Department of Biosciences and Nutrition, Karolinska Institutet, and School of Technology and Health, KTH Royal institute of Technology, 141 83 Huddinge, Sweden

[3 ]ISNI 0000 0004 1937 0626, GRID grid.4714.6, Department of Neurobiology, , Care Sciences and Society, Center for Alzheimer Research, Neuronal Oscillations Lab, Karolinska Institutet, ; 171 77 Stockholm, Sweden

[4 ]ISNI 0000 0001 2162 9922, GRID grid.5640.7, Department of Physics, , Chemistry and Biology, Linköping University, ; 581 83 Linköping, Sweden

[5 ]ISNI 0000 0004 1936 8948, GRID grid.4991.5, Department of Chemistry, , University of Oxford, South Parks Road, ; Oxford, OX1 5QY UK

[6 ]ISNI 0000 0004 1937 0626, GRID grid.4714.6, Science for Life Laboratory, Department of Microbiology, , Tumour and Cell Biology, Karolinska Institutet, Tomtebodavägen 23 A, ; 171 65 Stockholm, Sweden

[7 ]ISNI 0000 0004 0395 6526, GRID grid.419212.d, Department of Physical Organic Chemistry, , Latvian Institute of Organic Synthesis, ; Aizkraukles 21, Riga LV 1006 Latvia

Author information

Harriet E. Nilsson http://orcid.org/0000-0001-7739-4405

Hans Hebert http://orcid.org/0000-0002-3220-9402

Article

Publisher ID: 2056

DOI: 10.1038/s41467-017-02056-4

PMC ID: 5727130

PubMed ID: 29234026

SO-VID: 2942bde7-0230-4ace-bba8-c2c611f527ad

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Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commonslicense, unless indicated otherwise in a credit line to the material. If material is not included in the article’sCreative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.

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Date received : 6 July 2017

Date accepted : 2 November 2017

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Bri2 BRICHOS client specificity and chaperone activity are governed by assembly state

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Most cited references 44

Inherent toxicity of aggregates implies a common mechanism for protein misfolding diseases.

An analytical solution to the kinetics of breakable filament assembly.

Extrinsic Fluorescent Dyes as Tools for Protein Characterization

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