Abstract
Cultured cells easily develop resistance to kinesin-5 inhibitors (K5Is) often by overexpressing a related motor protein, kinesin-12/KIF15, or by acquiring mutations in the N-terminal motor domain of kinesin-5/KIF11 itself. We aimed to identify novel mechanisms responsible for resistance to S-trityl L-cysteine (STLC), one of the K5Is, using human osteosarcoma cell lines. Among six lines examined, U-2OS and HOS survived chronic STLC treatment and gave rise to resistant cells with IC50s at least 10-fold higher than those of the respective parental lines. Depletion of KIF15 largely eliminated the acquired K5I resistance in both cases, consistent with the proposed notion that KIF15 is indispensable for it. In contrast to the KIF11-independent property of the cells derived from HOS, those derived from U-2OS still required KIF11 for their growth and, intriguingly, expressed a C-terminal truncated variant of KIF11 resulting from a frame shift mutation (S1017fs). All of the isolated clones harbored the same mutation, suggesting its clonal expansion in the cell population due to the growth advantage during chronic STLC treatment. Transgenic expression of KIF11S1017fs in the parental U-2OS cells, as well as in HeLa cells, conferred a moderate but reproducible STLC resistance, probably owing to STLC-resistant localization of the mutant KIF11 on mitotic spindle. Our observations indicate that both KIF15 and the C-terminal-truncated KIF11 contributes to the STLC resistance of the U-2OS derived cells.
Highlights
Bipolar spindle assembly is a prerequisite for faithful segregation of duplicated chromatids into a pair of daughter cells in mitosis
Among six osteosarcoma cell lines we examined, chronic treatment of U-2OS and HOS with a sub-lethal dose of S-trityl L-cysteine (STLC) successfully gave rise to STLC-resistant cells, which were designated U-R and H-R, respectively
All of the six lines expressed KIF11/kinesin-5 and KIF15/kinesin-12 to some degree (S2B Fig), while there was no clear correlation between their variation and survival after STLC treatment
Summary
Bipolar spindle assembly is a prerequisite for faithful segregation of duplicated chromatids into a pair of daughter cells in mitosis. While maintenance of the assembled spindle in metaphase is accomplished by a set of cellular proteins with a certain degree of redundancy, centrosome separation beginning in prophase and bipolarity establishment in prometaphase may be carried out predominantly by a single class of essential plus-end-directed motor protein, kinesin-5, in most eukaryotes [1,2]. If bundling activity is supplied by some means, KIF15 can assemble the mitotic spindle employing its sliding activity, arguing that KIF15 may be universally required in order for cells to acquire resistance to K5Is
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