Cdc14

Cdc14 and Cdc14 are a gene and its protein product respectively. Cdc14 is found in most of the eukaryotes. Cdc14 was defined by Hartwell in his famous screen for loci that control the cell cycle of Saccharomyces cerevisiae. Cdc14 was later shown to encode a protein phosphatase. Cdc14 is dual-specificity, which means it has serine/threonine and tyrosine-directed activity. A preference for serines next to proline is reported. Many early studies, especially in the budding yeast Saccharomyces cerevisiae, demonstrated that the protein plays a key role in regulating late mitotic processes. However, more recent work in a range of systems suggests that its cellular function is more complex.

In Saccharomyces cerevisiae, the species in which Cdc14 activity is best understood and most-studied, the activity of Cdc14 (ScCdc14) leads to mitotic exit by dephosphorylating targets of Cdk1, a well-studied cyclin-dependent protein kinase. Cdc14 antagonizes Cdk1 by stimulating proteolysis of its cyclin partner (cyclin B), through the dephosphorylation of Cdh1, a regulator of the anaphase-promoting complex. Cdc14 also dephosphorylates Swi5 to enhance transcription of Sic1, an inhibitor of Cdk1.

This "simple" mitotic exit model became complicated as additional roles in mitosis were attributed to ScCdc14. These included stabilizing the spindle and regulating cytokinesis and rDNA/ telomere segregation. Consistent with such multiple roles, ScCdc14 has been found to bind several proteins that regulate the cell cycle and DNA replication, or that associate with the spindle or kinetochore.

Work in other yeasts further complicated the understanding of the role of Cdc14. Mutants in the ortholog of the fission Schizosaccharomyces pombe exit mitosis normally (unlike S. cerevisiae) but are altered in septation and cytokinesis. Also, while the protein regulates the Cdk1 ortholog of S. pombe, this occurs through a process unlike that of S. cerevisiae; it does not dephosphorylate the Sic1 or Cdh1 orthologs, but promotes the inactivation of Cdc2 by down-regulating Cdc25 phosphatase. Cdc14 of Candida albicans is also involved in septation and cytokinesis, but not mitotic exit.

Studies of Cdc14 in animal systems has further muddled the Cdc14 story. Animals have up to three diverged Cdc14 genes, with multiple splice variants, that appear to diverge in function and location. Also, several crucial studies have yielded contradictory results. The nematode Caenorhabditis elegans makes one Cdc14 (CdCdc14), which localizes to the spindle and centrosomes in mitosis, and to the cytoplasm at interphase. One RNAi study with CeCdc14 caused cytokinesis defects, which was consistent with similar work in Xenopus laevis. However, a second RNAi study showed no defects, and it was suggested that the first experiment used too many oligonucleotides which caused off-target effects. Contradictory data also exist with human Cdc14. Unlike CeCdc14, hCdc14A is not centrosomic in mitosis, but is cytoplasmic and centrosomic during interphase. HCdc14B was shown in one study to be primarily nucleolar like ScCdc14 (but unlike CeCdc14), but others detected hCdc14B on nuclear filaments and the spindle

...
Wikipedia