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  • Chaperone-Facilitated Aggregation of Thermo-Sensitive Proteins Shields Them from Degradation during Heat Stress.

Chaperone-Facilitated Aggregation of Thermo-Sensitive Proteins Shields Them from Degradation during Heat Stress.

Cell reports (2020-02-23)
Margarita Cabrera, Susanna Boronat, Luis Marte, Montserrat Vega, Pilar Pérez, José Ayté, Elena Hidalgo
ANOTACE

Cells have developed protein quality-control strategies to manage the accumulation of misfolded substrates during heat stress. Using a soluble reporter of misfolding in fission yeast, Rho1.C17R-GFP, we demonstrate that upon mild heat shock, the reporter collapses in protein aggregate centers (PACs). They contain and/or require several chaperones, such as Hsp104, Hsp16, and the Hsp40/70 couple Mas5/Ssa2. Stress granules do not assemble at mild temperatures and, therefore, are not required for PAC formation; on the contrary, PACs may serve as nucleation centers for the assembly of stress granules. In contrast to the general belief, the dominant fate of these PACs is not degradation, and the aggregated reporter can be disassembled by chaperones and recovers native structure and activity. Using mass spectrometry, we show that thermo-unstable endogenous proteins form PACs as well. In conclusion, formation of PACs during heat shock is a chaperone-mediated adaptation strategy.

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Sigma-Aldrich
Anisomycin from Streptomyces griseolus, ≥98% (HPLC), solid
Sigma-Aldrich
Cycloheximide, from microbial, ≥94% (TLC)
Nalgene® centrifuge bottles, style 3120, nominal capacity 1000 mL