Litcius/Paper detail

Bacterial Hsp70 resolves misfolded states and accelerates productive folding of a multi-domain protein

Rahmi Imamoglu, David Balchin, Manajit Hayer‐Hartl, F. Ulrich Hartl

2020Nature Communications156 citationsDOIOpen Access PDF

Abstract

The ATP-dependent Hsp70 chaperones (DnaK in E. coli) mediate protein folding in cooperation with J proteins and nucleotide exchange factors (E. coli DnaJ and GrpE, respectively). The Hsp70 system prevents protein aggregation and increases folding yields. Whether it also enhances the rate of folding remains unclear. Here we show that DnaK/DnaJ/GrpE accelerate the folding of the multi-domain protein firefly luciferase (FLuc) ~20-fold over the rate of spontaneous folding measured in the absence of aggregation. Analysis by single-pair FRET and hydrogen/deuterium exchange identified inter-domain misfolding as the cause of slow folding. DnaK binding expands the misfolded region and thereby resolves the kinetically-trapped intermediates, with folding occurring upon GrpE-mediated release. In each round of release DnaK commits a fraction of FLuc to fast folding, circumventing misfolding. We suggest that by resolving misfolding and accelerating productive folding, the bacterial Hsp70 system can maintain proteins in their native states under otherwise denaturing stress conditions.

Topics & Concepts

Protein foldingChaperone (clinical)ProteostasisFolding (DSP implementation)ChemistryBiophysicsHsp70LuciferasePhi value analysisFoldaseBiochemistryCell biologyHeat shock proteinEscherichia coliBiologyGroELEngineeringTransfectionGenePathologyElectrical engineeringMedicineHeat shock proteins researchBacillus and Francisella bacterial researchProtein Structure and Dynamics