The polo box is required for multiple functions of Plx1 in mitosis.

Polo-like kinases comprise a family of evolutionarily conserved serine/threonine protein kinases that play multiple roles in cell cycle regulation. In addition to the N-terminal catalytic domain, polo-like kinases have one or two highly conserved C-terminal non-catalytic regions, termed polo boxes. These motifs are required for targeting these kinases to subcellular mitotic structures. Here we report that kinase-dead Xenopus polo-like kinase (Plx1NA) functions as a competitor of endogenous Plx1 for polo box binding site(s) and inhibits the activation of Cdc25C and the G(2)-M transition in vivo. However, kinase-dead Plx1 with a point mutation in the polo box region (Plx1NAWF) did not have inhibitory effects. The ability of Plx1NA to block activation of the anaphase-promoting complex/cyclosome also requires an intact polo box. Microinjection of Plx1NA but not Plx1NAWF mRNA into Xenopus embryos caused cleavage arrest and formation of monopolar spindles, an effect previously seen in embryos injected with anti-Plx1 antibody. Spindle assembly experiments in vitro also showed that only monopolar spindles formed in Xenopus egg extracts supplemented with recombinant Plx1NA and that the spindle assembly process was delayed. Taken together, these results indicate that the polo box is required for Plx1 function in both the G(2)-M and the metaphase/anaphase transitions during the cell cycle.