Abstract 1791: 19-Substituted benzoquinone ansamycin Hsp90 inhibitors: Effects on Hsp90 co-chaperones and Hsp90-Hsf1 complexes in cellular systems

Abstract

Abstract The 19-substituted benzoquinone ansamycin (BQA) class of Hsp90 inhibitors were developed to decrease the off-target toxicity of their parent unsubstituted BQAs, geldanamcyin, 17-AAG, and 17-DMAG. We have shown that 19-BQAs do not react with thiols and show decreased toxicity to liver cell systems relative to parent BQAs. As a class, Hsp90 inhibitors exhibit anti-cancer activity by decreasing the levels of Hsp90 client proteins critical to cell growth and survival. Some Hsp90 inhibitors also disrupt interaction with Hsp90 co-chaperones, including cdc37, contributing to inhibited growth. Upon inhibition, the transcription factor heat shock factor 1 (Hsf1) dissociates from Hsp90 leading to a compensatory induction of other heat shock proteins, including Hsp70 which is commonly used as a molecular biomarker of cellular Hsp90 inhibition. We undertook a detailed study of the mechanism of action of 19-BQAs in HER2-positive breast cancer cells (BT474) using 19-phenyl- and 19-methyl-DMAG as model compounds. Their ability to disrupt association of Hsp90 with the co-chaperones p23 and cdc37, the kinetics of decreased Hsp90-Hsf1 levels, nuclear Hsf1 accumulation and increases in Hsp70 levels were defined. Both 19-phenyl- and 19-methyl -DMAG disrupted Hsp90-p23 association, confirming binding of the compounds at the N-terminal ATPase site of Hsp90. 19-Phenyl-DMAG and 19-methyl-DMAG also disrupted association of Hsp90 with cdc37, although 19-phenyl-DMAG was more potent. A detailed time course of decreased levels of Hsp90 client proteins and Hsp induction showed that increased Hsp70 was a more sensitive cellular marker as it could be detected at lower drug concentrations. Increases in Hsp70 did not appear to be a generalized stress response, since 19-substituted-BQAs caused dissociation of the Hsp90-Hsf1 dimer, nuclear translocation of Hsf-1, and subsequent increases in Hsp70 levels in a temporal manner. These data indicate that 19-substituted BQAs may exhibit their growth inhibitory effects in breast cancer cells through disruption of Hsp90 and its co-chaperones, particularly cdc37. The N-terminal ATPase site binding and Hsp90 inhibitory activity of these compounds was confirmed through disruption of Hsp90-p23 and Hsp90-Hsf1 associations, respectively (Supported by NCI grant CA51210). Citation Format: Derek A. Drechsel, Chuan-Hsin Chang, Russell Kitson, David Siegel, Christopher J. Moody, David Ross. 19-Substituted benzoquinone ansamycin Hsp90 inhibitors: Effects on Hsp90 co-chaperones and Hsp90-Hsf1 complexes in cellular systems. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 1791. doi:10.1158/1538-7445.AM2014-1791