The developmental fate of dictyostelium discoideum cells depends greatly on the cell-cycle position at the onset of starvation

Abstract

The relationship between the development of Dictyostelium discoideum Ax-2 and the cell cycle at the onset of starvation was analysed with special reference to sorting behaviors during the formation of polarized cell masses (slugs), using a method for inducing good synchrony. Cells starved at different cell-cycle positions showed different developmental features during further culture. For example, cells just before mitosis and dividing cells were sorted out into the anterior prestalk zone of migrating slugs, while cells starved during most of the G₂-phase, into the posterior prespore zone. Time courses of cell aggregation and tip formation were also found to vary greatly in a cell-cycle-related manner, and cells starved during the late G₂-phase showed the most rapid development. Differential chemotaxis and cohesiveness are generally considered to be important for cell sorting in Dictyostelium development. In fact, remarkable differences in the chemotactic ability to a chemoattractant, cAMP, were detected among cells starved at any particular phase of the cell cycle. EDTA-resistant cohesiveness was also acquired differently depending on the cell cycle, and it was stronger in the cells showing more rapid aggregation. These findings indicate a close relation of the cell cycle to the cell sorting and pattern formation. The possible significance of the cell-cycle-related events presented here is discussed, with special emphasis on the process of cell aggregation.