Abstract
Bistratene A is a cyclic polyether which affects cell cycle progression and can induce phosphorylation of cellular proteins. Treatment of HL60 cells with 100 ng/ml bistratene A was found to inhibit cytokinesis but had no effect on DNA synthesis and nuclear division. Consequently, bistratene A-treated cells became polyploid and multinucleate. In association with the development of this phenotype, the cytoplasmic protein stathmin was biphasically phosphorylated and levels of expression were doubled. Immunostaining of binucleate cells (bistratene A for 24 h) revealed increased α-tubulin localization where the cleavage furrow might be expected to form, i.e., along the equatorial plane. Treatment of these binucleate cells with the microtubule depolymerizing agent nocadazole promoted cleavage furrow formation and partially ameliorated the bistratene A-induced block in cell division. These findings implicate the polymerization status of microtubules and stathmin function in the regulation of cytokinesis.
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