有证据表明,与纺锤体组装相比,有丝分裂退出是更好的癌症治疗靶点。
Evidence that mitotic exit is a better cancer therapeutic target than spindle assembly.
作者信息
Huang Hsiao-Chun, Shi Jue, Orth James D, Mitchison Timothy J
机构信息
Department of Systems Biology, Harvard Medical School, Boston, MA 02215, USA.
出版信息
Cancer Cell. 2009 Oct 6;16(4):347-58. doi: 10.1016/j.ccr.2009.08.020.
Abstract
Current antimitotics work by perturbing spindle assembly, which activates the spindle assembly checkpoint, causes mitotic arrest, and triggers apoptosis. Cancer cells can resist such killing by premature exit, before cells initiate apoptosis, due to a weak checkpoint or rapid slippage. We reasoned blocking mitotic exit downstream of the checkpoint might circumvent this resistance. Using single-cell approaches, we showed that blocking mitotic exit by Cdc20 knockdown slowed cyclin B1 proteolysis, thus allowed more time for death initiation. Killing by Cdc20 knockdown did not require checkpoint activity and can occur by intrinsic apoptosis or an alternative death pathway when Bcl2 was overexpressed. We conclude targeting Cdc20, or otherwise blocking mitotic exit, may be a better cancer therapeutic strategy than perturbing spindle assembly.
摘要
目前的抗有丝分裂药物通过干扰纺锤体组装发挥作用,这会激活纺锤体组装检查点,导致有丝分裂停滞,并引发细胞凋亡。由于检查点功能较弱或快速滑脱,癌细胞可在细胞启动凋亡之前通过过早退出而抵抗这种杀伤作用。我们推断,在检查点下游阻断有丝分裂退出可能会规避这种抗性。使用单细胞方法,我们发现通过敲低Cdc20来阻断有丝分裂退出会减缓细胞周期蛋白B1的蛋白水解,从而为死亡启动留出更多时间。敲低Cdc20导致的杀伤作用不需要检查点活性,当Bcl2过表达时,可通过内源性凋亡或另一种死亡途径发生。我们得出结论,靶向Cdc20或以其他方式阻断有丝分裂退出,可能是比干扰纺锤体组装更好的癌症治疗策略。
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