The 90 kDa heat shock proteins (Hsp90) are responsible for the maturation of approximately 200 client protein substrates, most of which are associated with signaling cascades that regulate cellular growth and proliferation. Therefore, Hsp90 inhibition provides a novel approach toward the treatment of cancer as numerous signaling cascades can be derailed through inhibition of the Hsp90-dependent protein folding process. There are four Hsp90 isoforms. However, the ability to selectively inhibit each of these has not been realized. Through collaborative studies, we propose to develop selective inhibitors of Hsp90 isoforms through rationally designed analogues that bind to the N-terminal ATP-binding site, that selectively disrupt Hsp90/co- chaperone interactions, and through modification of the natural product, geldanamycin. Such approaches are likely to afford compounds that exhibit greater selectivity, reduced toxicity, and identify isoform-dependent client protein substrates. Culmination of such data will provide a platform on which further isoform-selective inhibitors can be pursued for the development of new cancer chemotherapeutics.
The development of cancer chemotherapeutics that exhibit minimal toxicity represents an emerging paradigm in medicinal chemistry/drug design. Utilizing the techniques described in this application, inhibitors of the Hsp90 protein folding process will be rationally developed with the aim of increasing selectivity and minimizing toxicity in the hopes that more efficacious compounds can be developed for the treatment of cancer.
|Hall, Jessica A; Kusuma, Bhaskar Reddy; Brandt, Gary E L et al. (2014) Cruentaren A binds F1F0 ATP synthase to modulate the Hsp90 protein folding machinery. ACS Chem Biol 9:976-85|
|Davenport, Jason; Balch, Maurie; Galam, Lakshmi et al. (2014) High-throughput screen of natural product libraries for hsp90 inhibitors. Biology (Basel) 3:101-38|
|Muth, Aaron; Crowley, Vincent; Khandelwal, Anuj et al. (2014) Development of radamide analogs as Grp94 inhibitors. Bioorg Med Chem 22:4083-98|
|Brandt, Gary E L; Blagg, Brian S J (2011) Monoenomycin: A Simplified Trienomycin A Analogue that Manifests Anticancer Activity. ACS Med Chem Lett 2:735-740|
|Matts, Robert L; Brandt, Gary E L; Lu, Yuanming et al. (2011) A systematic protocol for the characterization of Hsp90 modulators. Bioorg Med Chem 19:684-92|
|Duerfeldt, Adam S; Blagg, Brian S J (2010) Hsp90 inhibition: elimination of shock and stress. Bioorg Med Chem Lett 20:4983-7|
|Duerfeldt, Adam S; Blagg, Brian S J (2009) Hydrating for resistance to radicicol. ACS Chem Biol 4:245-7|
|Amolins, Michael W; Peterson, Laura B; Blagg, Brian S J (2009) Synthesis and evaluation of electron-rich curcumin analogues. Bioorg Med Chem 17:360-7|
|Peterson, Laura B; Blagg, Brian Sj (2009) To fold or not to fold: modulation and consequences of Hsp90 inhibition. Future Med Chem 1:267-283|
|Duerfeldt, Adam S; Brandt, Gary E L; Blagg, Brian S J (2009) Design, synthesis, and biological evaluation of conformationally constrained cis-amide Hsp90 inhibitors. Org Lett 11:2353-6|
Showing the most recent 10 out of 21 publications