Abstract
A novel strategy in cancer therapy is the induction of mitotic cell death by the pharmacological abrogation of cell cycle checkpoints. UCN-01 is such a compound that overrides the G2 cell cycle arrest induced by DNA damage and forces cells into a deleterious mitosis. The molecular pathways leading to mitotic cell death are largely unknown although recent evidence indicates that mitotic cell death represents a special case of apoptosis. Here, we demonstrate that the mitotic spindle checkpoint is activated upon chemotherapeutic treatment with topoisomerase II poisons and UCN-01. Cells that are forced to enter mitosis in the presence of topoisomerase inhibition arrest transiently in a prometaphase like state. By using a novel pharmacological inhibitor of the spindle checkpoint and spindle checkpoint-deficient cells we show that the spindle checkpoint function is required for the mitotic arrest and, most importantly, for efficient induction of mitotic cell death. Thus, our results demonstrate that the mitotic spindle checkpoint is an important determinant for the outcome of a chemotherapy based on the induction of mitotic cell death. Its frequent inactivation in human cancer might contribute to the observed resistance of tumor cells to these chemotherapeutic drugs.
Highlights
From the Institute for Molecular Biology and Tumor Research (IMT), Philipps University Marburg, D-35037 Marburg, Germany
Treatment of p53-deficient human colon carcinoma cells (HCT116-p53Ϫ/Ϫ) with adriamycin resulted in a cell cycle arrest in G2 before entry into mitosis
This observation raised the possibility that the mitotic spindle checkpoint might be activated when cells enter mitosis upon topoisomerase inhibition before cell death occurs
Summary
Spindle checkpoint defects are frequently observed in human cancer including breast, colon, lung, ovarian, and hepatocellular carcinomas [3,4,5,6,7] These defects have recently been associated with resistance to spindle damaging chemotherapeutic drugs (8 –10). Another large group of routinely used chemotherapeutics are various topoisomerase II poisons (e.g. etoposide/VP16, adriamycin/doxorubicin) These agents are thought to cause DNA damage and induce cell cycle arrest followed by the induction of cell death. Entry into mitosis in the presence of DNA damage appears to be an important determinant for chemotherapy outcome, but the mechanisms of the induction of mitotic cell death are not defined [13,14,15]. Go6976, a compound similar to UCN-01, was shown to potently abrogate the G2 arrest, and it was proposed to be a promising G2 cell cycle checkpoint abrogator for clinical studies [16]
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