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Contributed by Susan Lindquist, November 7, 2014 (sent for review August 13, 2014)
Significance
Although hormonal therapies for estrogen receptor-positive (ER+) breast cancer make up the earliest, and arguably most effective, “molecularly targeted” anticancer drugs, continued progress in controlling metastatic disease has been slow. Heterogeneity and the complexity of signaling in advanced cancers have frustrated efforts to prevent the rapid evolution of resistance to hormonal therapies, as well as kinase inhibitors and other agents. On the basis of earlier work defining the role of heat shock protein 90 (HSP90) in other evolutionary processes, we tested whether low-level HSP90 inhibition would limit the evolution of hormone resistance in breast cancer models. Results in culture and in mice provide support for a readily implemented strategy by which the heterogeneity and evolvability of metastatic ER+ breast tumors, and perhaps other advanced cancers, might be controlled.
Abstract
The efficacy of hormonal therapies for advanced estrogen receptor-positive breast cancers is limited by the nearly inevitable development of acquired resistance. Efforts to block the emergence of resistance have met with limited success, largely because the mechanisms underlying it are so varied and complex. Here, we investigate a new strategy aimed at the very processes by which cancers evolve resistance. From yeast to vertebrates, heat shock protein 90 (HSP90) plays a unique role among molecular chaperones by promoting the evolution of heritable new traits. It does so by regulating the folding of a diverse portfolio of metastable client proteins, many of which mediate adaptive responses that allow organisms to adapt and thrive in the face of diverse challenges, including those posed by drugs. Guided by our previous work in pathogenic fungi, in which very modest HSP90 inhibition impairs resistance to mechanistically diverse antifungals, we examined the effect of similarly modest HSP90 inhibition on the emergence of resistance to antiestrogens in breast cancer models. Even though this degree of inhibition fell below the threshold for proteotoxic activation of the heat-shock response and had no overt anticancer activity on its own, it dramatically impaired the emergence of resistance to hormone antagonists both in cell culture and in mice. Our findings strongly support the clinical testing of combined hormone antagonist-low-level HSP90 inhibitor regimens in the treatment of metastatic estrogen receptor-positive breast cancer. At a broader level, they also provide promising proof of principle for a generalizable strategy to combat the pervasive problem of rapidly emerging resistance to molecularly targeted therapeutics.
Footnotes
- ↵1To whom correspondence may be addressed. Email: lindquist_admin{at}wi.mit.edu or whitesell{at}wi.mit.edu.
Author contributions: L.W., S.S., and S.L. designed research; L.W., S.S., and D.A.P. performed research; L.W., S.S., M.L.M., and N.U.L. analyzed data; N.U.L. and D.A.P. reviewed findings and provided advice; and L.W. and S.L. wrote the paper.
Conflict of interest statement: D.A.P. is an employee of Synta Pharmaceuticals, and M.L.M. holds an equity interest in the company.
This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1421323111/-/DCSupplemental.
HSP90 empowers evolution of hormone resistance
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