Accumulating evidence has implicated the aberrant regulation of histone deacetylases (HDACs) as a nexus for multiple cancer hallmarks and in mediating tumor adaptation and resistance to genotoxic chemotherapy, suggesting a rational pairing of HDAC inhibitors with DNA damaging chemotherapeutic agents in the treatment of human malignancies. Here we report that panobinostat (LBH589), a potent pan-HDAC inhibitor, effectively curbed the proliferation of non-small cell lung cancer (NSCLC) cell lines A549, Calu-1, H226, H460, H838 and SKMES-1 at IC50 concentrations between 4 and 31 nmol/L via pleiotropic mechanisms, including crosstalk with EGFR signal transduction cascades. Combination therapy with carboplatin elicited rapid tumor cell kill and effectively restrained anchorage-independent clonogenic survival to a considerably greater extent over either monotherapy. The administration of carboplatin and panobinostat at clinically relevant doses to NOD-SCID xenograft mice drastically stalled disease progression by 92% as compared with negative control (P = .0026), which was greater than the 28% and 54% achieved with either carboplatin (P = .220) or panobinostat (P = .017) alone. These data demonstrate that panobinostat has strong anti-NSCLC activity and chemosensitizes tumors to carboplatin, thus justifying further evaluation of this combination approach in clinical trials.
Keywords: Epigenetic therapy; Histone deacetylase inhibitors; LBH589; Non-small cell lung cancer; Panobinostat.
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