Lithium induces cell plate dispersion during cytokinesis inTradescantia

Summary We have found that 10mM LiCl added toTradescantia stamen hair cells prior to early anaphase appears to prevent the vesicle coalescence phase of cell plate formation. In a fashion similar to caffeine inhibition of cell plate formation [Bonsignore and Hepler 1985, Protoplasma 129, 28–35], cell plate vesicle aggregation occurs at its normal time in LiCl, forming an incipient plate which is similar in morphology to that of an untreated cell during the first 10min, but the structure subsequently disperses and the resultant cells are binucleate. The addition of 10–20M myo-inositol was sufficient to reverse the inhibitory effect of Li⁺ in the majority of our experiments while scyllitol, an isomer of myo-inositol, or buffer without myoinositol were usually insufficient to reverse the inhibition. The timing of the addition of myo-inositol was critical for reversal; if the rescue solution was added more than 4 min after the onset of cell plate vesicle aggregation, the cell was usually irreversibly destined to become binucleate. The addition of 100M CaCl₂ within 2min of cell plate vesicle aggregation also overcame Li⁺-induced plate dispersal, but the kinetics of reversal were substantially slower than with myo-inositol. The results show that cell plate formation and in particular, cell plate vesicle coalescence, is sensitive to exogenously applied LiCl.Abbreviations AO Anaphase Onset - CP Cell Plate (completed) - CPD Cell Plate Dispersion - CPVA Cell Plate Vesicle Aggregation - DAG 1,2-diacylglycerol - InsP₃ 1,4,5-inositol trisphosphate - IP inositol-1-phosphate - polyPI polyphosphoinositide