4.8 Article

Assembly mechanism of early Hsp90-Cdc37-kinase complexes

Journal

SCIENCE ADVANCES
Volume 8, Issue 11, Pages -

Publisher

AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/sciadv.abm9294

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Funding

  1. National Institute of General Medical Sciences [GM115854]

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This study investigates the recruitment and loading mechanism of protein kinases to the Hsp90-Cdc37 complex, which is the first step in Hsp90-mediated chaperoning. The results show that the conformational dynamics of all partners are critical for the loading mechanism, and that Cdc37 plays a role in sensing clients by stabilizing the preexisting partially unfolded client state. These findings reveal the regulatory mechanism of molecular chaperones in maintaining protein homeostasis.
Molecular chaperones have an essential role for the maintenance of a balanced protein homeostasis. Here, we investigate how protein kinases are recruited and loaded to the Hsp90-Cdc37 complex, the first step during Hsp90-mediated chaperoning that leads to enhanced client kinase stability and activation. We show that conformational dynamics of all partners is a critical feature of the underlying loading mechanism. The kinome co-chaperone Cdc37 exists primarily in a dynamic extended conformation but samples a low-populated, well-defined compact structure. Exchange between these two states is maintained in an assembled Hsp90-Cdc37 complex and is necessary for substrate loading. Breathing motions at the N-lobe of a free kinase domain partially expose the kinase segment trapped in the Hsp90 dimer downstream in the cycle. Thus, client dynamics poise for chaperone dependence. Hsp90 is not directly involved during loading, and Cdc37 is assigned the task of sensing clients by stabilizing the preexisting partially unfolded client state.

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