Intragenic suppressors of Hsp70 mutants: Interplay between the ATPase- and peptide-binding domains

AUTOR(ES)
FONTE

The National Academy of Sciences

RESUMO

ATP hydrolysis and polypeptide binding, the two key activities of Hsp70 molecular chaperones, are inherent properties of different domains of the protein. The coupling of these two activities is critical because the bound nucleotide determines, in part, the affinity of Hsp70s for protein substrate. In addition, cochaperones of the Hsp40 (DnaJ) class, which stimulate Hsp70 ATPase activity, have been proposed to play an important role in promoting efficient Hsp70 substrate binding. Because little is understood about this functional interaction between domains of Hsp70s, we investigated mutations in the region encoding the ATPase domain that acted as intragenic suppressors of a lethal mutation (I485N) mapping to the peptide-binding domain of the mitochondrial Hsp70 Ssc1. Analogous amino acid substitution in the ATPase domain of the Escherichia coli Hsp70 DnaK had a similar intragenic suppressive effect on the corresponding I462T temperature-sensitive peptide-binding domain mutation. I462T protein had a normal basal ATPase activity and was capable of nucleotide-dependent conformation changes. However, the reduced affinity of I462T for substrate peptide (and DnaJ) is likely responsible for the inability of I462T to function in vivo. The suppressor mutation (D79A) appears to partly alleviate the defect in DnaJ ATPase stimulation caused by I462T, suggesting that alteration in the interaction with DnaJ may alter the chaperone cycle to allow productive interaction with polypeptide substrates. Preservation of the intragenic suppression phenotypes between eukaryotic mitochondrial and bacterial Hsp70s suggests that the phenomenon studied here is a fundamental aspect of the function of Hsp70:Hsp40 chaperone machines.

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