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Chaperone-Mediated Protein Disaggregation Triggers Proteolytic Clearance of Intra-nuclear Protein Inclusions

Fabian den Brave, Lucas V. Cairo, Chandhuru Jagadeesan, Carmen Ruger-Herreros, Axel Mogk, Bernd Bukau, Stefan Jentsch

2020Cell Reports72 citationsDOIOpen Access PDF

Abstract

The formation of insoluble inclusions in the cytosol and nucleus is associated with impaired protein homeostasis and is a hallmark of several neurodegenerative diseases. Due to the absence of the autophagic machinery, nuclear protein aggregates require a solubilization step preceding degradation by the 26S proteasome. Using yeast, we identify a nuclear protein quality control pathway required for the clearance of protein aggregates. The nuclear J-domain protein Apj1 supports protein disaggregation together with Hsp70 but independent of the canonical disaggregase Hsp104. Disaggregation mediated by Apj1/Hsp70 promotes turnover rather than refolding. A loss of Apj1 activity uncouples disaggregation from proteasomal turnover, resulting in accumulation of toxic soluble protein species. Endogenous substrates of the Apj1/Hsp70 pathway include both nuclear and cytoplasmic proteins, which aggregate inside the nucleus upon proteotoxic stress. These findings demonstrate the coordinated activity of the Apj1/Hsp70 disaggregation system with the 26S proteasome in facilitating the clearance of toxic inclusions inside the nucleus.

Topics & Concepts

ProteasomeProtein aggregationProteostasisCytosolCell biologyChaperone (clinical)Protein turnoverCytoplasmProteolysisNuclear transportProtein degradationHsp70NucleusNuclear proteinProtein foldingBiochemistryChemistryBiologyHeat shock proteinCell nucleusProtein biosynthesisEnzymeTranscription factorPathologyMedicineGeneHeat shock proteins researchEndoplasmic Reticulum Stress and DiseaseFungal and yeast genetics research
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