Abstract
Hsp90 assembles with steroid receptors and other client proteins in association with one or more Hsp90-binding cochaperones, some of which contain a common tetratricopeptide repeat (TPR) domain. Included in the TPR cochaperones are the Hsp70-Hsp90-organizing protein Hop, the FK506-binding immunophilins FKBP52 and FKBP51, the cyclosporin A-binding immunophilin CyP40, and protein phosphatase PP5. The TPR domains from these proteins have similar x-ray crystallographic structures and target cochaperone binding to the MEEVD sequence that terminates Hsp90. However, despite these similarities, the TPR cochaperones have distinctive properties for binding Hsp90 and assembling with Hsp90.steroid receptor complexes. To identify structural features that differentiate binding of FKBP51 and FKBP52 to Hsp90, we generated an assortment of truncation mutants and chimeras that were compared for coimmunoprecipitation with Hsp90. Although the core TPR domain (approximately amino acids 260-400) of FKBP51 and FKBP52 is required for Hsp90 binding, the C-terminal 60 amino acids (approximately 400-end) also influence Hsp90 binding. More specifically, we find that amino acids 400-420 play a critical role for Hsp90 binding by either FKBP. Within this 20-amino acid region, we have identified a consensus sequence motif that is also present in some other TPR cochaperones. Additionally, the final 30 amino acids of FKBP51 enhance binding to Hsp90, whereas the corresponding region of FKBP52 moderates binding to Hsp90. Taking into account the x-ray crystal structure for FKBP51, we conclude that the C-terminal regions of FKBP51 and FKBP52 outside the core TPR domains are likely to assume alternative conformations that significantly impact Hsp90 binding.
Highlights
Cochaperones of Hsp90 are Hop/Sti1, an adaptor chaperone that binds Hsp70 [3, 4], protein phosphatase PP5 [5], and members of both the FK506- and cyclosporin A-binding families of immunophilins (6 –9)
We observed that an exchange of sequences between the FKBP tetratricopeptide repeat (TPR) domains had no effect on Hsp90 binding by FKBP52 but blocked binding by FKBP51 [25]
The consensus TPR motifs terminate with helix 6 (H6, Fig. 1B); similar to structures for PP5 and CyP40, there is a seventh helix that extends beyond the core TPR domain for a minimum of 23 amino acids
Summary
Cochaperones of Hsp90 are Hop/Sti1, an adaptor chaperone that binds Hsp70 [3, 4], protein phosphatase PP5 [5], and members of both the FK506- and cyclosporin A-binding families of immunophilins (6 –9). The TPR domains from these proteins have similar x-ray crystallographic structures and target cochaperone binding to the MEEVD sequence that terminates Hsp90. Taking into account the x-ray crystal structure for FKBP51, we conclude that the C-terminal regions of FKBP51 and FKBP52 outside the core TPR domains are likely to assume alternative conformations that significantly impact Hsp90 binding.
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