Human Small Heat Shock Protein B8 Inhibits Protein Aggregation without Affecting the Native Folding Process

Human Small Heat Shock Protein B8 Inhibits Protein Aggregation without Affecting the Native Folding Process

Small Heat Shock Proteins (sHSPs) are key components of our Protein Quality Control system and are thought to act as reservoirs that neutralize irreversible protein aggregation. Yet, sHSPs can also act as sequestrases, promoting protein sequestration into aggregates, thus challenging our understandi...

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Veröffentlicht in:Journal of the American Chemical Society 2023-07, Vol.145 (28), p.15188-15196
Hauptverfasser: Choudhary, Dhawal, Mediani, Laura, Avellaneda, Mario J., Bjarnason, Sveinn, Alberti, Simon, Boczek, Edgar E., Heidarsson, Pétur O., Mossa, Alessandro, Carra, Serena, Tans, Sander J., Cecconi, Ciro
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Heat-Shock Proteins, Small - metabolism
Humans
Mutation
Protein Aggregates
Protein Folding
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container_end_page 15196
container_issue 28
container_start_page 15188
container_title Journal of the American Chemical Society
container_volume 145
creator Choudhary, Dhawal
Mediani, Laura
Avellaneda, Mario J.
Bjarnason, Sveinn
Alberti, Simon
Boczek, Edgar E.
Heidarsson, Pétur O.
Mossa, Alessandro
Carra, Serena
Tans, Sander J.
Cecconi, Ciro
description Small Heat Shock Proteins (sHSPs) are key components of our Protein Quality Control system and are thought to act as reservoirs that neutralize irreversible protein aggregation. Yet, sHSPs can also act as sequestrases, promoting protein sequestration into aggregates, thus challenging our understanding of their exact mechanisms of action. Here, we employ optical tweezers to explore the mechanisms of action of the human small heat shock protein HSPB8 and its pathogenic mutant K141E, which is associated with neuromuscular disease. Through single-molecule manipulation experiments, we studied how HSPB8 and its K141E mutant affect the refolding and aggregation processes of the maltose binding protein. Our data show that HSPB8 selectively suppresses protein aggregation without affecting the native folding process. This anti-aggregation mechanism is distinct from previous models that rely on the stabilization of unfolded polypeptide chains or partially folded structures, as has been reported for other chaperones. Rather, it appears that HSPB8 selectively recognizes and binds to aggregated species formed at the early stages of aggregation, preventing them from growing into larger aggregated structures. Consistently, the K141E mutation specifically targets the affinity for aggregated structures without impacting native folding, and hence impairs its anti-aggregation activity.
doi_str_mv 10.1021/jacs.3c02022
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subjects Heat-Shock Proteins, Small - metabolism
Humans
Mutation
Protein Aggregates
Protein Folding
title Human Small Heat Shock Protein B8 Inhibits Protein Aggregation without Affecting the Native Folding Process
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