Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The wee1 tyrosine kinase and cdc25 tyrosine phosphatase of fission yeast play antagonistic roles in the induction of mitosis through cdc2 regulation. We show here that the human wee1-like tyrosine kinase is a nuclear protein that ensures the completion of DNA replication prior to mitosis in cells expressing otherwise catastrophic levels of cdc2 activators. Paradoxically, wee1-rescued cells display very high levels of mitotic cdc2 kinase activity. We account for this anomaly by our observation that the cdc2 activator, cdc25C, is a cytoplasmic protein that, like cyclin B1, enters the nucleus at the G2/M transition. Thus, cdc2 is likely to be activated in the cytoplasm and requires nuclear localization to initiate both cytoplasmic and nuclear mitotic transformations. The human wee1 kinase appears to coordinate the transition between DNA replication and mitosis by protecting the nucleus from this cytoplasmically activated cdc2 kinase.
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PMID:Human wee1 maintains mitotic timing by protecting the nucleus from cytoplasmically activated Cdc2 kinase. 834 13

Human cyclins A and B1 were assembled with the cdk2 or cdc2 protein to reconstitute their respective kinase activities in vitro. Both cyclins complemented either cdk2 or cdc2, yielding kinase activities that supported the phosphorylation of histone H1. Activation of cdk2-catalyzed H1 kinase activity by cyclin A required a 10-min preincubation of the two components, whereas cdc2 kinase supported phosphate incorporation without a detectable time lag upon the addition of cyclin B1, suggesting a slower association rate of cdk2 with cyclin A compared with cdc2 and cyclin B1. Both cdk2 and cyclin A, as well as cdc2 and cyclin B1, formed stable complexes in the absence of ATP and substrate that could be isolated after glycerol gradient centrifugation. Incubation of the isolated complexes with ATP and histone H1 supported the phosphorylation of the substrate. Cyclin A-activated cdk2 or cdc2 phosphorylated p107, a pRB-related cellular protein, 10 times more effectively than the cyclin B1-complexed kinases. This was most likely due to a direct association of cyclin A with p107 (Ewen, M. E., Faha, B., Harlow, E., and Livingston, D. (1992) Science 255, 85-87; Faha, B., Ewen, M. E., Tsai, L.-H., Livingston, D., and Harlow, E. (1992) Science 255, 87-90). The reconstituted cdc2-cyclin B1 complex incorporated 4-5-fold more phosphate into the p34 subunit of the three-subunit (p70, p34, and p14) human single-stranded DNA-binding protein (also called RP-A), a DNA replication and DNA repair factor, than cdc2-cyclin A. No detectable phosphorylation of the p34 protein was observed with cdk2 complexed with either cyclin B1 or A. These data indicate that both cyclins as well as the catalytic subunits are important factors in controlling the rate of phosphorylation of a given substrate. The cyclin-activated cdc2 family kinases may target their cellular substrates through cyclin-mediated protein-protein interactions.
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PMID:Characterization of the in vitro reconstituted cyclin A or B1-dependent cdk2 and cdc2 kinase activities. 839 7

DNA replication in mammalian cells occurs in discrete nuclear foci. Here we show that terminally differentiated myotubes can be induced to reenter S phase and show the same pattern of replication foci as cycling cells. We used this cellular system to analyze the interaction of cell cycle proteins with these foci in vivo. Cyclin A and cdk2, but not cyclin B1 and cdc2, were specifically localized at nuclear replication foci, just like the replication protein proliferating cell nuclear antigen. A potential target of cyclin A and cdk2 is the 34 kd subunit of replication protein A (RPA34). In contrast with the 70 kd subunit, which localizes to the foci, RPA34 was not detected at these replication sites, which may reflect a transient interaction. The specific localization of cyclin A and cdk2 at nuclear replication foci provides a direct link between cell cycle regulation and DNA replication.
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PMID:Reversal of terminal differentiation and control of DNA replication: cyclin A and Cdk2 specifically localize at subnuclear sites of DNA replication. 840 87

We have investigated the mechanisms responsible for the sudden activation of the cdc2-cyclin B protein kinase before mitosis. It has been found previously that cdc25 is the tyrosine phosphatase responsible for dephosphorylating and activating cdc2-cyclin B. In Xenopus eggs and early embryos a cdc25 homologue undergoes periodic phosphorylation and activation. Here we show that the catalytic activity of human cdc25-C phosphatase is also activated directly by phosphorylation in mitotic cells. Phosphorylation of cdc25-C in mitotic HeLa extracts or by cdc2-cyclin B increases its catalytic activity. cdc25-C is not a substrate of the cyclin A-associated kinases. cdc25-C is able to activate cdc2-cyclin B1 in Xenopus egg extracts and to induce Xenopus oocyte maturation, but only after stable thiophosphorylation. This demonstrates that phosphorylation of cdc25-C is required for the activation of cdc2-cyclin B and entry into M-phase. Together, these studies offer a plausible explanation for the rapid activation of cdc2-cyclin B at the onset of mitosis and the self-amplification of MPF observed in vivo.
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PMID:Phosphorylation and activation of human cdc25-C by cdc2--cyclin B and its involvement in the self-amplification of MPF at mitosis. 842 94

We investigated the temporal regulation of cyclin A- and B1-dependent kinases in human lymphoma cells treated with nitrogen mustard (HN2) and pentoxifylline, to determine whether the activity of these complexes correlated with cell cycle arrest induced by DNA damage. Cells were synchronized in G1/S, treated with HN2, and then postincubated with pentoxifylline. HN2-induced a protracted delay in G2 phase. This delay correlated with suppression of cyclin B1- and cdc2-kinase activities, and stabilization of hyperphosphorylated-cdc2 in the presence of similar cyclin B1 levels to those found in mitosis. HN2 had no discernible effect on the S phase activity of cyclin A- or cdk2-immune complexes. Entry of control cells into mitosis correlated with destruction of cyclin A, disappearance of cyclin A-bound cdk2 and decreased cdk2 kinase activity. G2 delay induced by HN2 was associated with stabilization of cyclin A, increased abundance of cyclin A-bound cdk2, and increased cdk2 activity. Cyclin A was also associated with cdc2, which, contrary to complexes containing cdk2, were only activated upon entry into mitosis. Pentoxifylline abrogated cell cycle arrest induced by aphidicolin and HN2 in human lymphoma cells. Pentoxifylline also reverted the activity of cyclin A- and B1-kinases in HN2-treated cells to approximately that observed in controls. Our findings suggest that delayed entry into mitosis following DNA damage correlates with suppression of cyclin B1/cdc2 and cyclin A/cdc2 complexes, while maintaining cyclin A/cdc2 complexes in an active state. Furthermore, we found that pentoxifylline disrupts the signal transduction pathway that regulates these complexes when damaged DNA is present, resulting in abrogation of cell cycle arrest.
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PMID:G2 delay induced by nitrogen mustard in human cells affects cyclin A/cdk2 and cyclin B1/cdc2-kinase complexes differently. 846 39

The presence and roles of mitotic cyclins (cyclin A and cyclin B1), and cdc2 and related (having an N-terminal PSTAIRE conserved sequence) serine/threonine protein kinases were investigated by use of specific antibodies. The cyclin A and cyclin B1 antibodies reacted specifically with the acrosomal regions of human sperm cells in the indirect immunofluorescence technique (IFT) and recognized the specific band of p60 (cyclin A) and p62 (cyclin B1) on the Western blot of sodium deoxycholate (DOC)-solubilized noncapacitated human sperm preparation. Both antibodies reacted more strongly with the specific cell region/band of capacitated sperm than with that of noncapacitated sperm. The cdc2 and PSTAIRE antibodies also reacted predominantly with the acrosomal regions of human sperm cells in IFT and recognized the specific band of 34 kDa corresponding to p34 cdc2 protein on the Western blot of DOC-solubilized noncapacitated human sperm preparation. Again, both antibodies reacted more strongly with the specific cell region/band of capacitated sperm than with that of noncapacitated sperm. The cyclin A antibodies (but not the cyclin B1 antibodies) and cdc2 antibodies as well as the PSTAIRE antibodies significantly (p = 0.02 to p < 0.001) increased (rather than decreased) the human sperm penetration rates of zona-free hamster ova; the cyclin A and cdc2 antibodies showed the strongest enhancing effects. These three antibodies significantly increased the acrosome reaction and release of acrosin activity from the sperm cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Involvement of cyclins and cdc2 serine/threonine protein kinase in human sperm cell function. 848 36

Maturation-promoting factor, consisting of cdc2 protein kinase and a regulatory B-type cyclin, is a universal regulator of meiosis and mitosis in eukaryotes. In Xenopus, there are two subtypes of B-type cyclins, designated B1 and B2, both of which are phosphorylated. In this study, we have investigated the biological significance of this phosphorylation for Xenopus cyclin B1 during meiotic maturation. We have used a combination of site-directed mutagenesis and phosphopeptide-mapping to identify serine residues 2, 94, 96, 101, and 113 as presumptive phosphorylation sites, and together these sites account for all cyclin B1 phosphorylation in oocytes before germinal vesicle breakdown (GVBD). Single Ser-->Ala mutants as well as multiple site mutants have been constructed and characterized. Phosphorylation of cyclin B1 appears to be required for Xenopus oocyte maturation, based on the significantly diminished ability of the quintuple Ala mutant to induce oocyte maturation. Furthermore, partial phosphorylation of these five sites is sufficient to meet this requirement. Phosphorylation of cyclin B1 is not required for cdc2 kinase activity, for binding to cdc2 protein, for stability of cyclin B1 before GVBD, or for destruction of cyclin B1 after GVBD or after egg activation. A quintuple Glu mutant was also constructed, with serine residues 2, 94, 96, 101, and 113 mutated to Glu. In contrast to the quintuple Ala mutant, the quintuple Glu mutant was able to induce oocyte maturation efficiently, and with more rapid kinetics than wild-type cyclin B1. These data confirm that phosphorylation, as mimicked by Ser-->Glu mutations, confers enhanced biological activity to cyclin B1. Possible roles of cyclin B1 phosphorylation are discussed that might account for the increased biological activity of the quintuple Glu mutant.
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PMID:Requirement for phosphorylation of cyclin B1 for Xenopus oocyte maturation. 853 10

The retinoblastoma protein (pRb) functions as a negative regulator of the cell cycle and is essential to maintain certain cell types in a post-mitotic state during terminal differentiation. In the ocular lens, inactivation of this protein is sufficient to cause lens fiber cells, which are normally post-mitotic, to enter the cell cycle. The current studies address whether regulation of the cell cycle during lens fiber differentiation in normal lenses or in lenses in which pRB has been inactivated is accompanied by changes in expression of cyclin and cyclin-dependent kinase genes. In the normal lens, our experiments using in-situ hybridization reveal that the expression of cyclin A, cyclin B1, cdc2 and cdk2 is restricted to the proliferative epithelial cells, with no expression in the differentiating fiber cells. Cyclins D1 and D2 and cdk4 show a less restrictive pattern and are expressed in some of the post-mitotic cells. Lenses from RB-deficient embryos, in contrast, show inappropriate expression in the fiber cells of cyclins A, B1 and E, as well as cdc2 and cdk2. The lens fiber cells in these embryos express protein markers for differentiation, such as beta- and gamma-crystallins, even though the cells do not withdraw from the cell cycle. These results indicate that the regulated expression of multiple cell cycle regulatory genes during lens fiber cell differentiation requires the presence of pRb.
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PMID:Regulation of cyclin and cyclin-dependent kinase gene expression during lens differentiation requires the retinoblastoma protein. 855 1

We report here the first extensive in vivo study of cell cycle regulation in the Xenopus embryo. Cyclin A1, B1, B2, and E1 levels, Cdc2 and Cdk2 kinase activity, and Cdc25C phosphorylation states were monitored during early Xenopus embryonic cell cycles. Cyclin B1 and B2 protein levels were high in the unfertilized egg, declined upon fertilization, and reaccumulated to the same level during the first cell cycle, a pattern repeated during each of the following 11 divisions. Cyclin A1 showed a similar pattern, except that its level was lower in the egg than in the cell cycles after fertilization. Cyclin B1/Cdc2 kinase activity oscillated, peaking before each cleavage, and Cdc25C alternated between a highly phosphorylated and a less phosphorylated form that correlated with high and low cyclin B1/Cdc2 kinase activity, respectively. Unlike the mitotic cyclins, the level of cyclin E1 did not oscillate during embryogenesis, although its associated Cdk2 kinase activity cycled twice for each oscillation of cyclin B1/Cdc2 activity, consistent with a role for cyclin E1 in both S-phase and mitosis. Although the length of the first embryonic cycle is regulated by both the level of cyclin B and the phosphorylation state of Cdc2, cyclin accumulation alone was rate-limiting for later cycles, since overexpression of a mitotic cyclin after the first cycle caused cell cycle acceleration. The activity of Cdc2 closely paralleled the accumulation of cyclin B2, but cell cycle acceleration caused by cyclin B overexpression was not associated with elevation of Cdc2 activity to higher than metaphase levels. Tyrosine phosphorylation of Cdc2, absent during cycles 2-12, reappeared at the midblastula transition coincident with the disappearance of cyclin E1. Cyclin A1 disappeared later, at the beginning of gastrulation. Our results suggest that the timing of the cell cycle in the Xenopus embryo evolves from regulation by accumulation of mitotic cyclins to mechanisms involving periodic G1 cyclin expression and inhibitory tyrosine phosphorylation of Cdc2.
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PMID:In vivo regulation of the early embryonic cell cycle in Xenopus. 860 1

Mouse eggs arrested in metaphase II display high levels of cdc2/cyclin B1 and MAP protein kinase activities. Following fertilization there is a time-dependent decrease in the activity of each of these protein kinases. The decline in cdc2/cyclin B1 protein kinase correlates with the resumption of meiosis and the emission of the second polar body and precedes the decline in MAP kinase activity, which correlates temporally with the formation of the male and female pronuclear envelopes. These results suggest that high levels of MAP kinase activity are incompatible with the presence of a pronuclear envelope. To test this possibility, we expressed in mouse eggs a constitutively active form of MAP kinase kinase (MEK) whose only known target is p42/p44 MAP kinase. We show that following fertilization cdc2/cyclin B1 kinase activity declines and a second polar body is emitted. The endogenous MAP kinase remains active, however, and no pronuclear envelopes form. Thus, high levels of MAP kinase activity by itself in mouse eggs appear incompatible with the presence of a pronuclear envelope.
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PMID:Regulation of nuclear envelope assembly/disassembly by MAP kinase. 862 39


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