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Targeting therapy-resistant prostate cancer via a direct inhibitor of the human heat shock transcription factor 1

Bushu Dong, Alex M. Jaeger, Philip F. Hughes, David R. Loiselle, J. Spencer Hauck, Yao Fu, Timothy Haystead, Jiaoti Huang, Dennis J. Thiele

2020Science Translational Medicine88 citationsDOIOpen Access PDF

Abstract

gene was amplified, and nuclear HSF1 abundance was markedly increased in prostate cancers and particularly in neuroendocrine prostate cancer (NEPC), for which there are no available treatment options. Despite genetic validation of HSF1 as a therapeutic target in a range of cancers, a direct and selective small-molecule HSF1 inhibitor has not been validated or developed for use in the clinic. We described the identification of a direct HSF1 inhibitor, Direct Targeted HSF1 InhiBitor (DTHIB), which physically engages HSF1 and selectively stimulates degradation of nuclear HSF1. DTHIB robustly inhibited the HSF1 cancer gene signature and prostate cancer cell proliferation. In addition, it potently attenuated tumor progression in four therapy-resistant prostate cancer animal models, including an NEPC model, where it caused profound tumor regression. This study reports the identification and validation of a direct HSF1 inhibitor and provides a path for the development of a small-molecule HSF1-targeted therapy for prostate cancers and other therapy-resistant cancers.

Topics & Concepts

HSF1Prostate cancerCancer researchHeat shock factorCancerCancer cellMedicineMetastasisTranscription factorHeat shock proteinProstateOncologyBiologyInternal medicineHsp70GeneGeneticsHeat shock proteins researchEndoplasmic Reticulum Stress and DiseaseProstate Cancer Treatment and Research
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