- Distinct Mechanisms of Resistance to a CENP-E Inhibitor Emerge in Near-Haploid and Diploid Cancer Cells.
Distinct Mechanisms of Resistance to a CENP-E Inhibitor Emerge in Near-Haploid and Diploid Cancer Cells.
Aberrant chromosome numbers in cancer cells may impose distinct constraints on the emergence of drug resistance-a major factor limiting the long-term efficacy of molecularly targeted therapeutics. However, for most anticancer drugs we lack analyses of drug-resistance mechanisms in cells with different karyotypes. Here, we focus on GSK923295, a mitotic kinesin CENP-E inhibitor that was evaluated in clinical trials as a cancer therapeutic. We performed unbiased selections to isolate inhibitor-resistant clones in diploid and near-haploid cancer cell lines. In diploid cells we identified single-point mutations that can suppress inhibitor binding. In contrast,transcriptome analyses revealed that the C-terminus of CENP-E was disrupted in GSK923295-resistant near-haploid cells. While chemical inhibition of CENP-E is toxic to near-haploid cells, knockout of the CENPE gene does not suppress haploid cell proliferation, suggesting that deletion of the CENP-E C-terminus can confer resistance to GSK923295. Together, these findings indicate that different chromosome copy numbers in cells can alter epistatic dependencies and lead to distinct modes of chemotype-specific resistance.