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ABSTRACT: Entry into mitosis depends on the activity of cyclin-dependent kinases (CDKs). Conversely, exit from mitosis occurs when mitotic cyclins are degraded, thereby extinguishing CDK activity. Exit from mitosis must also require mitotic phosphoproteins to revert to their interphase hypophosphorylated forms, but there is a controversy about which phosphatase(s) is/are responsible for dephosphorylating the CDK substrates. We find that PP2A associated with a B55 delta subunit is relatively specific for a model mitotic CDK substrate in Xenopus egg extracts. The phosphatase activity measured by this substrate is regulated during the cell cycle--high in interphase and suppressed during mitosis. Depletion of PP2A-B55 delta (in interphase) from 'cycling' frog egg extracts accelerated their entry into mitosis and kept them indefinitely in mitosis. When PP2A-B55 delta was depleted from mitotic extracts, however, exit from mitosis was hardly delayed, showing that other phosphatase(s) are also required for mitotic exit. Increasing the concentration of PP2A-B55 delta in extracts by adding recombinant enzyme inhibited the entry into mitosis. This form of PP2A seems to be a key regulator of entry into and exit from mitosis.
The EMBO Journal 09/2009; 28(18):2777-85. · 9.20 Impact Factor
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ABSTRACT: The anaphase-promoting complex/cyclosome (APC/C) is a cell-cycle-regulated essential E3 ubiquitin ligase; however, very little is known about its meiotic regulation. Here we show that fission yeast Mes1 is a substrate of the APC/C as well as an inhibitor, allowing autoregulation of the APC/C in meiosis. Both traits require a functional destruction box (D box) and KEN box. We show that Mes1 directly binds the WD40 domain of the Fizzy family of APC/C activators. Intriguingly, expression of nonubiquitylatable Mes1 blocks cells in metaphase I with high levels of APC/C substrates, suggesting that ubiquitylation of Mes1 is required for partial degradation of cyclin B in meiosis I by alleviating Mes1 inhibitory function. Consistently, a ternary complex, APC/C-Fizzy/Cdc20-Mes1, is stabilized by inhibiting Mes1 ubiquitylation. These results demonstrate that the fine-tuning of the APC/C activity, by a substrate that is also an inhibitor, is required for the precise coordination and transition through meiosis.
Developmental cell 04/2008; 14(3):446-54. · 13.36 Impact Factor
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ABSTRACT: Inherited mutations in BRCA2 are associated with a predisposition to early-onset breast cancers. The underlying basis of tumorigenesis is thought to be linked to defects in DNA double-strand break repair by homologous recombination. Here we show that the carboxy-terminal region of BRCA2, which interacts directly with the essential recombination protein RAD51, contains a site (serine 3291; S3291) that is phosphorylated by cyclin-dependent kinases. Phosphorylation of S3291 is low in S phase when recombination is active, but increases as cells progress towards mitosis. This modification blocks C-terminal interactions between BRCA2 and RAD51. However, DNA damage overcomes cell cycle regulation by decreasing S3291 phosphorylation and stimulating interactions with RAD51. These results indicate that S3291 phosphorylation might provide a molecular switch to regulate RAD51 recombination activity, providing new insight into why BRCA2 C-terminal deletions lead to radiation sensitivity and cancer predisposition.
Nature 04/2005; 434(7033):598-604. · 36.28 Impact Factor
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ABSTRACT: Substrates for mitotic proteolysis such as cyclin B have a 9 residue destruction motif, the destruction box (D-box). To identify the receptor that specifically binds the D-box, we used affinity chromatography with immobilized D-box matrices. We find that the APC/C from Xenopus egg extracts binds to the D-box of cyclin B, whereas Fizzy (Cdc20) does not. Mutations in the D-box abolished this interaction. We show that this binding is regulated in the cell cycle, such that the APC/C from egg extracts in interphase does not bind to the D-box matrix. Our results suggest that the APC/C forms a stable interaction with the D-box of its substrates in a cell cycle-dependent manner.
Molecular Cell 02/2004; 13(1):137-47. · 14.18 Impact Factor
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ABSTRACT: PCTAIRE-1 is a CDK-related protein kinase found in terminally differentiated cells in brain and testis, and in many immortalised and transformed cell lines. Bacterially expressed PCTAIRE is completely inactive as a protein kinase, but is a very good substrate for protein kinase A (PKA), which phosphorylates a total of four sites in the N-terminus of PCTAIRE-1. Phosphorylation of one of these sites, Ser119, generates a 14-3-3 binding site, which is functional in vitro as well as in vivo. Mutation of another PKA site, Ser153, to an alanine residue generated an activated kinase in transfected mammalian cells. This activity was comparable to that of CDK5 activated by a bacterially expressed, truncated version of p35(nck), p21. Gel filtration analysis of a brain extract suggested that monomeric PCTAIRE-1 was the active species, implying that PCTAIRE-1 may not be a true CDK, in that it does not require a partner (cyclin-like) subunit for kinase activity. Finally, we found that various forms of PCTAIRE-1 transfected into neuroblastoma cell lines could either promote or inhibit neurite outgrowth, suggesting a potential role for the PCTAIRE-1 gene product in the control of neurite outgrowth.
Journal of Cell Science 10/2002; 115(Pt 17):3479-90. · 6.11 Impact Factor
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ABSTRACT: Two B-type cyclins, B1 and B2, have been identified in mammals. Proliferating cells express both cyclins, which bind to and
activate p34cdc2. To test whether the two B-type cyclins have distinct roles, we generated lines of transgenic mice, one lacking cyclin B1
and the other lacking cyclin B2. Cyclin B1 proved to be an essential gene; no homozygous B1-null pups were born. In contrast,
nullizygous B2 mice developed normally and did not display any obvious abnormalities. Both male and female cyclin B2-null
mice were fertile, which was unexpected in view of the high levels and distinct patterns of expression of cyclin B2 during
spermatogenesis. We show that the expression of cyclin B1 overlaps the expression of cyclin B2 in the mature testis, but not
vice versa. Cyclin B1 can be found both on intracellular membranes and free in the cytoplasm, in contrast to cyclin B2, which
is membrane-associated. These observations suggest that cyclin B1 may compensate for the loss of cyclin B2 in the mutant mice,
and implies that cyclin B1 is capable of targeting the p34cdc2 kinase to the essential substrates of cyclin B2.
Proceedings of the National Academy of Sciences 04/1998; 95(8):4344-4349. · 9.68 Impact Factor
