Abstract
The molecular chaperone DnaK, the Hsp70 homolog of Escherichia coli, binds hydrophobic polypeptide segments in extended conformation. The co-chaperone DnaJ (Hsp40) has been reported to bind native and denatured proteins as well as peptides. We tested pseudo-peptides of D-amino acids as ligands for both chaperones. In comparison to the parent all-L peptide, these mimetics had either enantiomorphic side chain positions combined with retained main chain direction (normal all-D peptide) or unchanged side chain topology together with reverse direction of the peptide backbone (retro all-D peptide). The peptides were labeled with acrylodan (a), and their binding to DnaK and DnaJ was monitored by the accompanying increase in fluorescence intensity. The parent all-L peptide a-CALLLSAARR bound to both DnaK (Kd = 0.1 microM) and DnaJ (Kd = 9.2 microM). In contrast, the normal all-D and retro all-D peptides did not bind to DnaK; they bound, however, to DnaJ with Kd values of 6.8 microM and 0.9 microM, respectively. The emission spectra of the DnaJ-bound peptides suggests that DnaJ bound both D-peptides with the same main chain direction as L-peptides. Binding of the normal all-D and all-L peptides inhibited the DnaJ-induced stimulation of DnaK ATPase. However, binding of the retro all-D analog to DnaJ did not impair the stimulation, indicating the existence of separate binding sites for peptides and DnaK.
Highlights
Chaperones of the Hsp701 family fulfill essential functions in protein folding by preventing and reversing off-pathway interactions that lead to aggregation [1, 2]
Binding and release of polypeptides are modulated by ATP binding and hydrolysis [8], which on their part are controlled by the co-chaperones GrpE and DnaJ, respectively [7, 9]
In the normal all-D peptide mimetics, all L-amino acid residues have been replaced by the corresponding D-enantiomers; the main chains of these peptide analogs have the same direction as in the parent peptides, whereas the side chains occupy enantiomorphic positions
Summary
Chaperones of the Hsp701 family fulfill essential functions in protein folding by preventing and reversing off-pathway interactions that lead to aggregation [1, 2]. We have found various peptides derived from the presequence of mitochondrial aspartate aminotransferase to be high affinity ligands of DnaK [7].2 In a search for peptide mimetics that might be used as inhibitors of the chaperone system, we tested normal all-D and retro all-D (retroinverso) analogs of a parent all-L peptide for binding to DnaK and DnaJ.
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