Abstract
To identify novel therapeutic opportunities for patients with prostate cancer, we applied high-throughput screening to systematically explore most currently marketed drugs and drug-like molecules for their efficacy against a panel of prostate cancer cells. We carried out a high-throughput cell-based screening with proliferation as a primary end-point using a library of 4,910 drug-like small molecule compounds in four prostate cancer (VCaP, LNCaP, DU 145, and PC-3) and two nonmalignant prostate epithelial cell lines (RWPE-1 and EP156T). The EC(50) values were determined for each cell type to identify cancer selective compounds. The in vivo effect of disulfiram (DSF) was studied in VCaP cell xenografts, and gene microarray and combinatorial studies with copper or zinc were done in vitro for mechanistic exploration. Most of the effective compounds, including antineoplastic agents, were nonselective and found to inhibit both cancer and control cells in equal amounts. In contrast, histone deacetylase inhibitor trichostatin A, thiram, DSF, and monensin were identified as selective antineoplastic agents that inhibited VCaP and LNCaP cell proliferation at nanomolar concentrations. DSF reduced tumor growth in vivo, induced metallothionein expression, and reduced DNA replication by downregulating MCM mRNA expression. The effect of DSF was potentiated by copper in vitro. We identified three novel cancer-selective growth inhibitory compounds for human prostate cancer cells among marketed drugs. We then validated DSF as a potential prostate cancer therapeutic agent. These kinds of pharmacologically well-known molecules can be readily translated to in vivo preclinical studies and clinical trials.
Highlights
To identify novel therapeutic opportunities for patients with prostate cancer, we applied high-throughput screening to systematically explore most currently marketed drugs and drug-like molecules for their efficacy against a panel of prostate cancer cells
Histone deacetylase (HDAC) inhibitor trichostatin A (TSA), thiram, disulfiram (DSF), and monensin were identified as the only agents that had antitumor efficacy at nanomolar concentrations without affecting nonmalignant control cells
The prostate cell lines RWPE-1 [11], PC-3, and DU 145 were purchased from American Type Culture Collection (LGC Promochem AB), and the nonmalignant EP156T prostate epithelial cells were received from Dr Varda Rotter (Weizmann Institute of Science, Rehovot, Israel) and grown in the media recommended by the distributor [12]
Summary
To identify novel therapeutic opportunities for patients with prostate cancer, we applied high-throughput screening to systematically explore most currently marketed drugs and drug-like molecules for their efficacy against a panel of prostate cancer cells. Histone deacetylase inhibitor trichostatin A, thiram, DSF, and monensin were identified as selective antineoplastic agents that inhibited VCaP and LNCaP cell proliferation at nanomolar concentrations. We validated DSF as a potential prostate cancer therapeutic agent These kinds of pharmacologically wellknown molecules can be readily translated to in vivo preclinical studies and clinical trials. Hormonal therapy is not curative, and often, androgen-independent, drug-resistant disease develops Such tumors remain virtually impossible to treat with current medications. Histone deacetylase (HDAC) inhibitor trichostatin A (TSA), thiram, disulfiram (DSF), and monensin were identified as the only agents that had antitumor efficacy at nanomolar concentrations without affecting nonmalignant control cells. The AR-T877A mutation has been found from prostatic tissues derived from patients with a metastatic prostate cancer, indicating potential biological relevance [10]
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