Lithium alters mitotic progression in stamen hair cells of Tradescantia in a time-dependent and reversible fashion.

Stamen hair cells of Tradescantia exhibit remarkable precision in the timing of their mitotic events. This precision is altered dramatically with treatment in 50 microM to 1 mM LiCl, an inhibitor of the polyphosphoinositide cycle. Mitotic progression is altered as a function of the time of treatment with LiCl. If cells are treated during late prophase, greater than 80% fail to enter metaphase. Most of the cells that undergo nuclear envelope breakdown become arrested in metaphase. Treatment with LiCl earlier in prophase also results in metaphase arrest. Metaphase arrest can be reversed by the addition of 10 microM myo-inositol or 100 microM CaCl2 to the extracellular medium. The timing of reversal by myo-inositol takes 10 to 14 min while CaCl2 promotes anaphase onset in 2 to 5 min. The difference in kinetics for reversal between these two treatments suggests that myo-inositol addition overrides a biochemical pathway while Ca2+ addition supplants a phosphoinositide-mediated rise in the cation that may be necessary for anaphase onset. Buffer without myo-inositol or CaCl2 is insufficient for reversal. If the cells are treated with LiCl in mid-late-metaphase, at least 5 min prior to the expected time of anaphase onset, sister chromatids split at the normal time, 33 +/- 4 min after nuclear envelope breakdown, but further chromosome separation is arrested. Anaphase chromosome movement can be restored by treatment with either 10 microM myo-inositol or 100 microM CaCl2 in the medium.(ABSTRACT TRUNCATED AT 250 WORDS)