Abstract
Hsp90 is a ubiquitous molecular chaperone that facilitates the folding and maturation of hundreds of cellular “client” proteins. The ATP-driven client maturation process is regulated by a large number of co-chaperones. Among them, Aha1 is the most potent activator of Hsp90 ATPase activity and thus dramatically affects Hsp90’s client proteins. To understand the Aha1 activation mechanism, we determined full-length Hsp90:Aha1 structures in six different states by cryo-electron microscopy, including nucleotide-free semi-closed, nucleotide-bound pre-hydrolysis, and semi-hydrolyzed states. Our structures demonstrate that the two Aha1 domains can each interact with Hsp90 in two different modes, uncovering a complex multistep activation mechanism. The results show that Aha1 accelerates the chemical step of ATP hydrolysis like a conventional enzyme, but most unusually, catalyzes the rate-limiting large-scale conformational changes of Hsp90 fundamentally required for ATP hydrolysis. Our work provides a structural framework to guide small molecule development targeting this critical modulator of client protein maturation.
Competing Interest Statement
The authors have declared no competing interest.