Neurofibromatosis type 1 (NF1) and Neurofibromatosis type 2 (NF2) are two dominantly inherited disorders that cause tumors in Schwann cells. NF1 patients have a high risk for malignant peripheral nerve sheath tumors (MPNST), which are often inoperable and do not respond well to current chemotherapies or radiation. NF2 patients have a high risk for schwannomas. To identify potential therapeutic targets in these two tumors, we screened the NF1 MPNST cell line, ST88-14, and the NF2 schwannoma cell line, HEI-193, against ~2000 drugs of known mechanisms of action (including ~600 cancer relevant drugs), and also screened the cell lines against an siRNA library targeting most protein kinases. Both the drug screen and the siRNA screen identified Polo-like kinase 1 (PLK1) among the most potent hits in both cell lines. Since PLK1 acts on the cell cycle primarily at the G2/M transition, the same stage where aurora kinase (AURKA) acts, we explored PLK1 and its relationship to aurora kinase in MPNST. Quantitative profiling of PLK1 inhibitors against a panel of 10 neurofibromatosis cell lines found that they were potent inhibitors and, unlike AURKA inhibitors, were not more selective for NF1 over NF2 tumor cells. Furthermore, one PLK1 inhibitor, BI6727 stabilized tumor volume in MPNST xenografts. We conclude that PLK1 is a therapeutic target for MPNSTs and schwannomas, but inhibitors may have a narrow therapeutic index that limits their use as a single agent.
Keywords: HTS; heat map; high throughput screen; siRNA screen; signal transduction; synthetic lethal; von Recklinghausen disease; xenograft.
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