Abstract
The mitotic Kinesin-5 motor proteins crosslink and slide apart antiparallel spindle microtubules, thus performing essential functions in mitotic spindle dynamics. Specific inhibition of their function by monastrol-like small molecules has been examined in clinical trials as anticancer treatment, with only partial success. Thus, strategies that improve the efficiency of monastrol-like anticancer drugs are required. In the current study, we examined the link between sensitivity to monastrol and occurrence of mitotic slippage in several human cell-lines. We found that the rank of sensitivity to monastrol, from most sensitive to least sensitive, is: AGS>HepG2>Lovo>Du145≥HT29. We show correlation between the sensitivity of a particular cell-line to monastrol and the tendency of the same cell-line to undergo mitotic slippage. We also found that in the monastrol resistant HT29 cells, prolonged monastrol treatments increase mRNA and protein levels of the chromosomal passenger protein survivin. In contrast, survivin levels are not increased by this treatment in the monastrol-sensitive AGS cells. We further show that over-expression of survivin in the monastrol-sensitive AGS cells reduces mitotic slippage and increases resistance to monastrol. Finally, we show that during short exposure to monastrol, Si RNA silencing of survivin expression reduces cell viability in both AGS and HT29 cells. Our data suggest that the efficiency of anti-cancer treatment with specific kinesin-5 inhibitors may be improved by modulation of expression levels of survivin.
Highlights
The mitotic Kinesin-5 motor proteins (BimC/Kif11/Eg5/N-2) perform conserved functions in mitotic spindle dynamics
To examine the factors that influence the sensitivity of different cells to monastrol, we first characterized this sensitivity in five different cell lines: AGS from stomach adenocarcinoma [46], HepG2 from hepatocellular carcinoma [47], LoVo from colon adenocarcinoma [48], Du154 from prostate carcinoma [49], and HT29 from colon adenocarcinoma [50]
We found that following 24h treatment with monastrol HT29 cells exhibit increased levels of cyclin B compared to 12h of treatment, indicating that they are arrested in mitosis (Fig 3)
Summary
The mitotic Kinesin-5 motor proteins (BimC/Kif11/Eg5/N-2) perform conserved functions in mitotic spindle dynamics. One of the proposed reasons for this inefficiency is incomplete knowledge of the mitotic arrest pathways and, as a result, inability to identify molecular components that can be targeted in addition to kinesin-5 inhibitors to improve their efficiency in anticancer treatment [27, 39]. To address this issue, in the current study we examined the sensitivity to monastrol and occurrence of mitotic slippage in several human cell-lines. Our data suggest that combined inhibition of HsEg5 and modulation of survivin expression can improve the potency of anticancer treatment by kinesin-5 inhibitors
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