Cdc25b and Cdc25c Differ Markedly in Their Properties as Initiators of Mitosis

doi:10.1083/jcb.146.3.573

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© The Rockefeller University Press, 0021-9525/1999//573 $5.00
The Journal of Cell Biology, Volume 146, Number 3, , 1999 573-584

Original Article

Cdc25b and Cdc25c Differ Markedly in Their Properties as Initiators of Mitosis

Christina Karlsson^a, Stephanie Katich^b, Anja Hagting^a, Ingrid Hoffmann^b, and Jonathon Pines^a

^a Wellcome/CRC Institute, Cambridge CB2 1QR United Kingdom
^b FS 6 Angewandte Tumorvirologie (F0400), Deutsches Krebsforschungszentrum, 69120 Heidelberg, Germany
Wellcome/CRC Institute, Tennis Court Road, Cambridge, CB2 1QR United Kingdom.44-1223-33-408944-1223-33-4096

j.pines{at}welc.cam.ac.uk

We have used time-lapse fluorescence microscopy to study theproperties of the Cdc25B and Cdc25C phosphatases that have bothbeen implicated as initiators of mitosis in human cells. Todifferentiate between the functions of the two proteins, wehave microinjected expression constructs encoding Cdc25B orCdc25C or their GFP-chimeras into synchronized tissue culturecells. This assay allows us to express the proteins at definedpoints in the cell cycle. We have followed the microinjectedcells by time-lapse microscopy, in the presence or absence ofDNA synthesis inhibitors, and assayed whether they enter mitosisprematurely or at the correct time. We find that overexpressingCdc25B alone rapidly causes S phase and G2 phase cells to entermitosis, whether or not DNA replication is complete, whereasoverexpressing Cdc25C does not cause premature mitosis. OverexpressingCdc25C together with cyclin B1 does shorten the G2 phase andcan override the unreplicated DNA checkpoint, but much lessefficiently than overexpressing Cdc25B. These results suggestthat Cdc25B and Cdc25C do not respond identically to the samecell cycle checkpoints. This difference may be related to thedifferential localization of the proteins; Cdc25C is nuclearthroughout interphase, whereas Cdc25B is nuclear in the G1 phaseand cytoplasmic in the S and G2 phases. We have found that thechange in subcellular localization of Cdc25B is due to nuclearexport and that this is dependent on cyclin B1. Our data suggestthat although both Cdc25B and Cdc25C can promote mitosis, theyare likely to have distinct roles in the controlling the initiationof mitosis.

Key Words: cell cycle • mitosis • green fluorescent protein • nuclear export

1.used in this paper: CDK1, cyclin-dependent kinase 1; DIC,differential interference contrast; GFP; green fluorescent protein;LMB, leptomycin B; MmGFP, modified green fluorescent protein;PCC, premature chromosome condensation; YFP, yellow fluorescentprotein

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In Brief
J. Cell Biol. 1999 146: 1-2. [Full Text] [PDF]