HSF1 Is Essential for Myeloma Cell Survival and A Promising Therapeutic Target

Purpose: Myeloma is a plasma cell malignancy characterized by the overproduction of immunoglobulin, and is therefore susceptible to therapies targeting protein homeostasis. We hypothesized that heat shock factor 1 (HSF1) was an attractive therapeutic target for myeloma due to its direct regulation of transcriptional programs implicated in both protein homeostasis and the oncogenic phenotype. Here, we interrogate HSM as a therapeutic target in myeloma using bioinformatic, genetic, and pharmacologic means. Experimental Design: To assess the clinical relevance oft HSF1, we analyzed publicly available patient myeloma gene expression datasets. Validation of this novel target was conducted in in vitro experiments using shRNA or inhibitors of the HSF1 pathway in human myeloma cell lines and primary cells as well as in in vivo human myeloma xenograft models. Results: Expression of HSF1 and its target genes were associated with poorer myeloma patient survival. ShRNA-mediated knock-down or pharmacologic inhibition of the HSF1 pathway with a novel chemical probe, CC1251236, or with KRIBB11, led to caspase-mediated cell death that was associated with an increase in ElF2 alpha phosphorylation, CHOP expression and a decrease in overall protein synthesis. Importantly, both CCI751236 and KRIBB11 induced cytotoxicity in human myeloma cell lines and patient-derived primary myeloma cells with a therapeutic window over normal cells. pharmacologic inhibition induced tumor growth inhibition and was well-tolerated in a human myeloma xenograft marine. model with evidence of pharamacodynamic biomarker modulation. Conclusions: Taken together, our studies demonstrate the dependence of myeloma cells on HSF1 for survival and support the clinical evaluation of pharmacologic inhibitors of the HSF1 pathway in myeloma. (C) 2018 AACR.