posted on 2015-12-17, 01:43authored byJessica
A. Hall, Bhaskar Reddy Kusuma, Gary E. L. Brandt, Brian S. J. Blagg
The molecular chaperone Hsp90 requires
the assistance of immunophilins,
co-chaperones, and partner proteins for the conformational maturation
of client proteins. Hsp90 inhibition represents a promising anticancer
strategy due to the dependence of numerous oncogenic signaling pathways
upon Hsp90 function. Historically, small molecules have been designed
to inhibit ATPase activity at the Hsp90 N-terminus; however, these
molecules also induce the pro-survival heat shock response (HSR).
Therefore, inhibitors that exhibit alternative mechanisms of action
that do not elicit the HSR are actively sought. Small molecules that
disrupt Hsp90-co-chaperone interactions can destabilize the Hsp90
complex without induction of the HSR, which leads to inhibition of
cell proliferation. In this article, selective inhibition of F1F0 ATP synthase by cruentaren A was shown to disrupt
the Hsp90-F1F0 ATP synthase interaction and
result in client protein degradation without induction of the HSR.