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ATP hydrolysis by yeast Hsp104 determines protein aggregate dissolution and size in vivo

Udhayabhaskar Sathyanarayanan, Marina Musa, Peter Bou Dib, Nuno Raimundo, Ira Milošević, Anita Kriško

2020Nature Communications50 citationsDOIOpen Access PDF

Abstract

Signs of proteostasis failure often entwine with those of metabolic stress at the cellular level. Here, we study protein sequestration during glucose deprivation-induced ATP decline in Saccharomyces cerevisiae. Using live-cell imaging, we find that sequestration of misfolded proteins and nascent polypeptides into two distinct compartments, stress granules, and Q-bodies, is triggered by the exhaustion of ATP. Both compartments readily dissolve in a PKA-dependent manner within minutes of glucose reintroduction and ATP level restoration. We identify the ATP hydrolase activity of Hsp104 disaggregase as the critical ATP-consuming process determining compartments abundance and size, even in optimal conditions. Sequestration of proteins into distinct compartments during acute metabolic stress and their retrieval during the recovery phase provide a competitive fitness advantage, likely promoting cell survival during stress.

Topics & Concepts

ProteostasisSaccharomyces cerevisiaeATP hydrolysisCell biologyProtein aggregationYeastProtein foldingBiochemistryCLPBAdenosine triphosphateBiologyChemistryHeat shock proteinBiophysicsEnzymeGeneATPaseHeat shock proteins researchProtein Structure and DynamicsEnzyme Structure and Function