Abstract
Protein folding is a prominent chaperone function of the Hsp70 system. Refolding of an unfolded protein is efficiently mediated by the Hsc70 system with either type 1 DnaJ protein, DjA1 or DjA2, and a nucleotide exchange factor. A surface plasmon resonance technique was applied to investigate substrate recognition by the Hsc70 system and demonstrated that multiple Hsc70 proteins and a dimer of DjA1 initially bind independently to an unfolded protein. The association rate of the Hsc70 was faster than that of DjA1 under folding-compatible conditions. The Hsc70 binding involved a conformational change, whereas the DjA1 binding was bivalent and substoichiometric. Consistently, we found that the bound (14)C-labeled Hsc70 to the unfolded protein became more resistant to tryptic digestion. The gel filtration and cross-linking experiments revealed the predominant presence of the DjA1 dimer. Furthermore, the Hsc70 and DjA1 bound to distinct sets of peptide array sequences. All of these findings argue against the generality of the widely proposed hypothesis that the DnaJ-bound substrate is targeted and transferred to Hsp70. Instead, these results suggest the importance of the bivalent binding of DjA1 dimer that limits unfavorable transitions of substrate conformations in protein folding.
Highlights
The Hsp70 protein usually functions as a chaperone system with various combinations of components including an Hsp70 protein, a DnaJ/Hsp40 protein, and a cochaperone(s)
The cycle is further regulated by other components: a DnaJ/Hsp40 protein accelerates the ATPase of the Hsp70 [10], and the ADP/ATP exchange rate is enhanced by a group of cochaperones called nucleotide exchange factors [11]
There are three kinds of nucleotide exchange factors for the Hsc70 system [11], and Bag1 was selected for the experiments
Summary
The Hsp70 protein usually functions as a chaperone system with various combinations of components including an Hsp70 protein, a DnaJ/Hsp40 protein, and a cochaperone(s). Several Hsc70 Proteins and Substoichiometric Numbers of DjA1 Bind to an Unfolded Luciferase—Various amounts of luciferase was coupled covalently to sensor chips and unfolded by a denaturant completely, and individual chaperone binding was investigated (Fig. 2, A and B). These molar ratios merely represented the amounts of chaperone binding during the course of substrate recognition, a single molecule of unfolded luciferase could bind several Hsc70 proteins and a substoichiometric amount of DjA1 dimer.
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