The binding of the small heat-shock protein αB-crystallin to fibrils of α-synuclein is driven by entropic forces

Molecular chaperones are key components of the cellular proteostasis network whose role includes the suppression of the formation and proliferation of pathogenic aggregates associated with neurodegenerative diseases. The molecular principles that allow chaperones to recognize misfolded and aggregate...

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Autores principales: Scheidt, Tom, Carozza, Jacqueline A., Kolbe, Carl C., Aprile, Francesco A., Tkachenko, Olga, Bellaiche, Mathias M. J., Meisl, Georg, Peter, Quentin A. E., Herling, Therese W., Ness, Samuel, Castellana-Cruz, Marta, Benesch, Justin L. P., Vendruscolo, Michele, Dobson, Christopher M., Arosio, Paolo, Knowles, Tuomas P. J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2021
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8463877/
https://www.ncbi.nlm.nih.gov/pubmed/34518228
http://dx.doi.org/10.1073/pnas.2108790118
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author Scheidt, Tom
Carozza, Jacqueline A.
Kolbe, Carl C.
Aprile, Francesco A.
Tkachenko, Olga
Bellaiche, Mathias M. J.
Meisl, Georg
Peter, Quentin A. E.
Herling, Therese W.
Ness, Samuel
Castellana-Cruz, Marta
Benesch, Justin L. P.
Vendruscolo, Michele
Dobson, Christopher M.
Arosio, Paolo
Knowles, Tuomas P. J.
author_facet Scheidt, Tom
Carozza, Jacqueline A.
Kolbe, Carl C.
Aprile, Francesco A.
Tkachenko, Olga
Bellaiche, Mathias M. J.
Meisl, Georg
Peter, Quentin A. E.
Herling, Therese W.
Ness, Samuel
Castellana-Cruz, Marta
Benesch, Justin L. P.
Vendruscolo, Michele
Dobson, Christopher M.
Arosio, Paolo
Knowles, Tuomas P. J.
author_sort Scheidt, Tom
collection PubMed
description Molecular chaperones are key components of the cellular proteostasis network whose role includes the suppression of the formation and proliferation of pathogenic aggregates associated with neurodegenerative diseases. The molecular principles that allow chaperones to recognize misfolded and aggregated proteins remain, however, incompletely understood. To address this challenge, here we probe the thermodynamics and kinetics of the interactions between chaperones and protein aggregates under native solution conditions using a microfluidic platform. We focus on the binding between amyloid fibrils of [Formula: see text]-synuclein, associated with Parkinson’s disease, to the small heat-shock protein [Formula: see text] B-crystallin, a chaperone widely involved in the cellular stress response. We find that [Formula: see text] B-crystallin binds to [Formula: see text]-synuclein fibrils with high nanomolar affinity and that the binding is driven by entropy rather than enthalpy. Measurements of the change in heat capacity indicate significant entropic gain originates from the disassembly of the oligomeric chaperones that function as an entropic buffer system. These results shed light on the functional roles of chaperone oligomerization and show that chaperones are stored as inactive complexes which are capable of releasing active subunits to target aberrant misfolded species.
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spelling pubmed-84638772021-10-27 The binding of the small heat-shock protein αB-crystallin to fibrils of α-synuclein is driven by entropic forces Scheidt, Tom Carozza, Jacqueline A. Kolbe, Carl C. Aprile, Francesco A. Tkachenko, Olga Bellaiche, Mathias M. J. Meisl, Georg Peter, Quentin A. E. Herling, Therese W. Ness, Samuel Castellana-Cruz, Marta Benesch, Justin L. P. Vendruscolo, Michele Dobson, Christopher M. Arosio, Paolo Knowles, Tuomas P. J. Proc Natl Acad Sci U S A Biological Sciences Molecular chaperones are key components of the cellular proteostasis network whose role includes the suppression of the formation and proliferation of pathogenic aggregates associated with neurodegenerative diseases. The molecular principles that allow chaperones to recognize misfolded and aggregated proteins remain, however, incompletely understood. To address this challenge, here we probe the thermodynamics and kinetics of the interactions between chaperones and protein aggregates under native solution conditions using a microfluidic platform. We focus on the binding between amyloid fibrils of [Formula: see text]-synuclein, associated with Parkinson’s disease, to the small heat-shock protein [Formula: see text] B-crystallin, a chaperone widely involved in the cellular stress response. We find that [Formula: see text] B-crystallin binds to [Formula: see text]-synuclein fibrils with high nanomolar affinity and that the binding is driven by entropy rather than enthalpy. Measurements of the change in heat capacity indicate significant entropic gain originates from the disassembly of the oligomeric chaperones that function as an entropic buffer system. These results shed light on the functional roles of chaperone oligomerization and show that chaperones are stored as inactive complexes which are capable of releasing active subunits to target aberrant misfolded species. National Academy of Sciences 2021-09-21 2021-09-13 /pmc/articles/PMC8463877/ /pubmed/34518228 http://dx.doi.org/10.1073/pnas.2108790118 Text en Copyright © 2021 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by/4.0/This open access article is distributed under Creative Commons Attribution License 4.0 (CC BY) (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Biological Sciences
Scheidt, Tom
Carozza, Jacqueline A.
Kolbe, Carl C.
Aprile, Francesco A.
Tkachenko, Olga
Bellaiche, Mathias M. J.
Meisl, Georg
Peter, Quentin A. E.
Herling, Therese W.
Ness, Samuel
Castellana-Cruz, Marta
Benesch, Justin L. P.
Vendruscolo, Michele
Dobson, Christopher M.
Arosio, Paolo
Knowles, Tuomas P. J.
The binding of the small heat-shock protein αB-crystallin to fibrils of α-synuclein is driven by entropic forces
title The binding of the small heat-shock protein αB-crystallin to fibrils of α-synuclein is driven by entropic forces
title_full The binding of the small heat-shock protein αB-crystallin to fibrils of α-synuclein is driven by entropic forces
title_fullStr The binding of the small heat-shock protein αB-crystallin to fibrils of α-synuclein is driven by entropic forces
title_full_unstemmed The binding of the small heat-shock protein αB-crystallin to fibrils of α-synuclein is driven by entropic forces
title_short The binding of the small heat-shock protein αB-crystallin to fibrils of α-synuclein is driven by entropic forces
title_sort binding of the small heat-shock protein αb-crystallin to fibrils of α-synuclein is driven by entropic forces
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8463877/
https://www.ncbi.nlm.nih.gov/pubmed/34518228
http://dx.doi.org/10.1073/pnas.2108790118
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