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Published online
doi:10.1083/jcb.200906150
The Journal of Cell Biology, Vol. 186, No. 5, 675-684
The Rockefeller University Press, 0021-9525 $30.00
© Yang et al.
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Cells satisfy the mitotic checkpoint in Taxol, and do so faster in concentrations that stabilize syntelic attachments



Zhenye Yang1, Alison E. Kenny1, Daniela A. Brito2, and Conly L. Rieder1,2,3

1 Division of Translational Medicine, Wadsworth Center, NY State Department of Health, Albany, NY 12201
2 Department of Biomedical Sciences, School of Public Health, State University of New York at Albany, Albany, NY 12201
3 Marine Biology Laboratory, Woods Hole, MA 02543

Correspondence to Conly L. Rieder: rieder{at}wadsworth.org

To determine why the duration of mitosis (DM) is less in Taxol than in nocodazole or Eg5 inhibitors we studied the relationship between Taxol concentration, the DM, and the mitotic checkpoint. We found that unlike for other spindle poisons, in Taxol the DM becomes progressively shorter as the concentration surpasses ~0.5 µM. Studies on RPE1 and PtK2 expressing GFP/cyclin B or YFP/Mad2 revealed that cells ultimately satisfy the checkpoint in Taxol and do so faster at concentrations >0.5 µM. Inhibiting the aurora-B kinase in Taxol-treated RPE1 cells accelerates checkpoint satisfaction by stabilizing syntelic kinetochore attachments and reduces the DM to ~1.5 h regardless of drug concentration. A similar stabilization of syntelic attachments by Taxol itself appears responsible for accelerated checkpoint satisfaction at concentrations >0.5 µM. Our results provide a novel conceptual framework for how Taxol prolongs mitosis and caution against using it in checkpoint studies. They also offer an explanation for why some cells are more sensitive to lower versus higher Taxol concentrations.

Abbreviations used in this paper: ACA, anti-centromere antibody; DM, duration of mitosis; MT, microtubule; NEB, nuclear envelope breakdown.

© 2009 Yang et al.
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