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)

Phosphorylation/inactivation of RB is typically required for cell cycle progression. However, we have identified a tumor cell line, C33A, which progresses through the cell cycle in the presence of an active allele of RB (PSM-RB). To determine how C33A cells evade RB-mediated arrest, we compared RB signaling to downstream effectors in this resistant cell line to that of the RB-sensitive SAOS-2 cell line. Although introduction of PSM-RB repressed E2F-mediated transcription in both C33A and SAOS-2 cells, PSM-RB failed to repress Cyclin A promoter activity in C33A. Ectopic expression of PSM-RB in SAOS-2 cells resulted in a decrease in both Cyclin A and Cdk2 protein levels without affecting Cyclin E or Cdk4. In contrast, over-expression of PSM-RB in C33A cells did not alter endogenous Cyclin A, Cyclin E, or Cdk2 protein levels or impact Cdk2 kinase activity, indicating that signaling from RB to down-stream targets is abrogated in this cell line. The importance of Cdk2 activity was demonstrated by p27Kip1, which attenuated Cdk2 activity and inhibited cell cycle progression in C33A cells. Since RB signaling to Cdk2 is disrupted in these tumor cells, we co-expressed two proteins that cooperate with RB in transcriptional repression, AHR and BRG-1, in an attempt to correct this signaling dysfunction. Co-expression of AHR/BRG-1 with PSM-RB attenuated Cyclin A and Cdk2 expression as well as Cdk2-associated kinase activity, resulting in cell cycle inhibition of C33A cells. Importantly, ectopic expression of Cyclin A was able to reverse the arrest mediated by co-expression of AHR/BRG-1 with PSM-RB. These results indicate that down-regulation of Cdk2 activity is requisite for RB-mediated cell cycle arrest. Thus, this study reveals a new mechanism through which tumor cells evade anti-proliferative signals, and provides insight into how RB-signaling is mediated.
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PMID:Restoration of retinoblastoma mediated signaling to Cdk2 results in cell cycle arrest. 1077 75

The Saccharomyces cerevisiae genes PHO80 and PHO85 encode, respectively, a cyclin and cyclin-dependent kinase, which negatively regulate PHO5 gene transcription by phosphorylating the transcription activator Pho4p. Cyclin-dependent kinases (CDKs) are highly conserved proteins, both within and between species. It was previously demonstrated, using reporter genes activated in yeast by Pho4p, that hybrid proteins in which over two-thirds of Pho85p were replaced with the homologous region from human Cdk2 retained the function of native Pho85p with respect to promoter repression. In the present study, various truncated forms of the hybrid human-yeast CDKs were tested for function. Surprisingly, truncations in which significant portions of the C-terminal region of the 291-residue hybrid CDK were deleted retained activity. Genes encoding human Cdk2 proteins which terminated after amino acids 151, 140, 130, 120 and 90 each complement a chromosomal pho85 gene disruption in which the HIS3 gene is inserted at codon 49. Truncated Cdk2 proteins containing less than 60 amino acids failed to complement the pho85::HIS3 gene disruption. Although the functional C-terminal truncations disrupt the ATP-binding and active sites of Cdk2, reporter gene repression mediated by these truncated proteins is apparently due to phosphorylation of Pho4p, since a gene in which the essential lysine codon at position 33 was converted to an arginine codon does not complement the chromosomal gene disruption. The human Cdk2 truncations were demonstrated to function through intergenic complementation. The intact Cdk2-Pho85 hybrid CDK complemented the pho85 mutation in yeast strains in which the entire PHO85 coding region was deleted from chromosome XVI. The C-terminal Cdk2 truncations, however, were non-functional in these strains and thus dependent for activity on the pho85 coding region which remained in the mutant pho85::HIS3 chromosomal locus. These genetic results are consistent with a model involving protein fragment complementation in which the active site of the CDK is bisected.
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PMID:Intergenic complementation truncation mutants of cyclin-dependent kinase. 1077 40

huCdc7 encodes a catalytic subunit for Saccharomyces cerevisae Cdc7-related kinase complex of human. ASK, whose expression is cell cycle-regulated, binds and activates huCdc7 kinase in a cell cycle-dependent manner (Kumagai, H., Sato, N., Yamada, M., Mahony, D. , Seghezzi, W., Lees, E., Arai, K., and Masai, H. (1999) Mol. Cell. Biol. 19, 5083-5095). We have expressed huCdc7 complexed with ASK regulatory subunit using the insect cell expression system. To facilitate purification of the kinase complex, glutathione S-transferase (GST) was fused to huCdc7 and GST-huCdc7-ASK complex was purified. GST-huCdc7 protein is inert as a kinase on its own, and phosphorylation absolutely depends on the presence of the ASK subunit. It autophosphorylates both subunits in vitro and phosphorylates a number of replication proteins to different extents. Among them, MCM2 protein, either in a free form or in a MCM2-4-6-7 complex, serves as an excellent substrate for huCdc7-ASK kinase complex in vitro. MCM4 and MCM6 are also phosphorylated by huCdc7 albeit to less extent. MCM2 and -4 in the MCM2-4-6-7 complex are phosphorylated by Cdks as well, and prior phosphorylation of the MCM2-4-6-7 complex by Cdks facilitates phosphorylation of MCM2 by huCdc7, suggesting collaboration between Cdks and Cdc7 in phosphorylation of MCM for initiation of S phase. huCdc7 and ASK proteins can also be phosphorylated by Cdks in vitro. Among four possible Cdk phosphorylation sites of huCdc7, replacement of Thr-376, corresponding to the activating threonine of Cdk, with alanine (T376A mutant) dramatically reduces kinase activity, indicative of kinase activation by phosphorylation of this residue. In vitro, Cdk2-Cyclin E, Cdk2-Cyclin A, and Cdc2-Cyclin B, but not Cdk4-Cyclin D1, phosphorylates the Thr-376 residue of huCdc7, suggesting possible regulation of huCdc7 by Cdks.
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PMID:Human Cdc7-related kinase complex. In vitro phosphorylation of MCM by concerted actions of Cdks and Cdc7 and that of a criticial threonine residue of Cdc7 bY Cdks. 1084 77

Cyclin A contains a region implicated in binding to the p27 inhibitor and to substrates. There is strong evolutionary conservation of surface residues contributing to this region in many cyclins, including yeast B-type cyclins, despite the absence of a yeast p27 homolog. The yeast S-phase B-type cyclin Clb5p interacted with mammalian p27 in a two-hybrid assay. This interaction was disrupted by mutations designed to disrupt hydrophobic interactions (hpm mutation) or hydrogen bonding (Q241A mutation) based on the cyclin A-p27 crystal structure. In contrast, mutation of the Clb5p p27-binding domain only slightly reduced binding and inhibition by the Sic1p Clb-Cdc28p kinase inhibitor. Mutations disrupting the p27-binding domain strongly reduced Clb5p biological activity in diverse assays without reducing Clb5p-associated kinase activity. An analogous hpm mutation in the mitotic cyclin Clb2p reduced mitotic function, but in some assays this mutation increased the ability of Clb2p to perform functions normally restricted to Clb5p. These results support the idea of a modular, structurally conserved cyclin domain involved in substrate targeting.
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PMID:Conservation and function of a potential substrate-binding domain in the yeast Clb5 B-type cyclin. 1084 4

Cyclin dependent kinase 4 (cdk4) activity is controlled by the binding of regulatory subunits and inhibitory factors, as well as tyrosine and serine/threonine phosphorylation. More recently the influence of calcium levels have been demonstrated. Using transient transfections in Jurkat cells, we observed specific binding between cdk4 and the calcium and calmodulin activated serine/threonine phosphatase, calcineurin. Furthermore, we demonstrated that the inhibition of the phosphatase activity of calcineurin with FK506 and cyclosporin A resulted in an overall increase in cdk4 kinase activity, suggesting that the phosphatase activity of calcineurin was inhibitory to the kinase activity of cdk4. In contrast, we were not able to observe a similar effect on the kinase activity of either cdk6 or cdk2, indicating that the phosphatase activity of calcineurin was specific for cdk4. In addition, using an in vitro phosphatase assay for calcineurin, we observed that the exogenous addition of calcineurin resulted in the dephosphorylation of cdk4, an event that downregulated the kinase activity of cdk4. Calcineurin could, therefore, play an opposing role to the action of the cyclin activating kinase complex, an enzyme that upregulates the kinase activity of cdk4, an important G0/G1 checkpoint element in mammalian cells. Oncogene (2000) 19, 2820 - 2827
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PMID:Calcineurin regulation of the mammalian G0/G1 checkpoint element, cyclin dependent kinase 4. 1085 Oct 85

Radiation injury to cells enhances C-terminal phosphorylation of p53 at both Ser315 and Ser392 in vivo, suggesting the existence of two cooperating DNA damage-responsive pathways that play a role in stimulating p53-dependent gene expression. Our previous data has shown that cyclin A-cdk2 is the major enzyme responsible for modifying p53 at Ser315 in vivo after irradiation damage and in this report we dissect the mechanism of cyclinA-cdk2 binding to and phosphorylation of p53. Although cyclin B(1)-dependent protein kinases can phosphorylate small peptides containing the Ser315 site, cyclin A-cdk2 does not phosphorylate such small peptides suggesting that additional determinants are required for cyclin A-cdk2 interaction with p53. Peptide competition studies have localized a cyclin A interaction site to a Lys381Lys382Leu383Met384Phe385 sequence within C-terminal negative regulatory domain of human p53. An alanine mutation at any one of four key positions abrogates the efficacy of a synthetic peptide containing this motif as an inhibitor of cyclin A-cdk2 phosphorylation of p53 protein. Single amino acid mutations of full-length p53 protein at Lys382, Leu383, or Phe385 decreases cyclin A-cdk2 dependent phosphorylation at Ser315. Cyclin B(1)-cdk2 complexes are not inhibited by KKLMF motif-containing peptides nor is p53 phosphorylation by cyclin B-cdk2 reduced by mutation of the cyclin A interaction site. These data identifying a KKLMF cyclin A docking site on p53 protein highlight a common cyclin A interaction motif that is shared between the tumour suppressor proteins pRb and p53.
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PMID:The C-terminal regulatory domain of p53 contains a functional docking site for cyclin A. 1088 47

The expression of cyclin-dependent kinase 1 (cdc2), cyclin A and cyclin B1 was immunohistochemically studied in 101 hepatocellular carcinomas (HCC). cdc2 overexpression was directly related to advanced stage, portal invasion, intrahepatic metastasis, poor differentiation, high alpha-fetoprotein level, large size, high Ki-67 labeling index and poor prognosis. Cyclin A and B1 overexpression showed similar tendency to that of cdc2, but they were not recognized as independent prognostic factors by multivariate analysis. These findings suggest that cdc2 plays the most crucial role of the G2/M modulators in cell cycle progression and cell proliferation of HCC and significantly predicts the recurrence of this carcinoma.
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PMID:Expression and prognostic role of cyclin-dependent kinase 1 (cdc2) in hepatocellular carcinoma. 1089 70

Cyclin-dependent kinases (CDKs) that control cell cycle progression are regulated in many ways, including activating phosphorylation of a conserved threonine residue. This essential phosphorylation is carried out by the CDK-activating kinase (CAK). Here we examine the effects of replacing this threonine residue in human CDK2 by serine. We found that cyclin A bound equally well to wild-type CDK2 (CDK2(Thr-160)) or to the mutant CDK2 (CDK2(Ser-160)). In the absence of activating phosphorylation, CDK2(Ser-160)-cyclin A complexes were more active than wild-type CDK2(Thr-160)-cyclin A complexes. In contrast, following activating phosphorylation, CDK2(Ser-160)-cyclin A complexes were less active than phosphorylated CDK2(Thr-160)-cyclin A complexes, reflecting a much smaller effect of activating phosphorylation on CDK2(Ser-160). The kinetic parameters for phosphorylating histone H1 were similar for mutant and wild-type CDK2, ruling out a general defect in catalytic activity. Interestingly, the CDK2(Ser-160) mutant was selectively defective in phosphorylating a peptide derived from the C-terminal domain of RNA polymerase II. CDK2(Ser-160) was efficiently phosphorylated by CAKs, both human p40(MO15)(CDK7)-cyclin H and budding yeast Cak1p. In fact, the k(cat) values for phosphorylation of CDK2(Ser-160) were significantly higher than for phosphorylation of CDK2(Thr-160), indicating that CDK2(Ser-160) is actually phosphorylated more efficiently than wild-type CDK2. In contrast, dephosphorylation proceeded more slowly with CDK2(Ser-160) than with wild-type CDK2, either in HeLa cell extract or by purified PP2Cbeta. Combined with the more efficient phosphorylation of CDK2(Ser-160) by CAK, we suggest that one reason for the conservation of threonine as the site of activating phosphorylation may be to favor unphosphorylated CDKs following the degradation of cyclins.
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PMID:The effects of changing the site of activating phosphorylation in CDK2 from threonine to serine. 1093 29

Cyclin/cdc complexes are known to function in cell-cycle regulation. Cyclin D1/cdk4 and -6 complexes, which functions as a G1-S checkpoint and cyclin B1/cdc2 complexes, a G2-M checkpoint are essential for DNA synthesis and mitosis, respectively. Thus, dysregulated overexpression of cyclins appears to be involved in uncontrollable cell proliferation and early tumor development. We investigated the expression and proliferative index of cyclin D1 (PIcyclin D1), cyclin B1 (PIcyclin B1) and Ki-67 (PIKi-67) using immunohistochemical staining on 15 cases of ductal hyperplasia (DH), 26 cases of atypical ductal hyperplasia (ADH) and 43 cases of ductal carcinoma in situ (DCIS) of the breast in order to evaluate whether these cyclins are associated with abnormal cell proliferation and play a role in tumor development from ADH to carcinoma. Furthermore, we investigated whether the expression and proliferative index of the cyclins and Ki-67 are correlated with the histologic grade according to the Van Nuys classification and with the histologic subtype according to traditional classification. Finally, we estimated the correlation coefficient among PIcyclin D1, PIcyclin B1, PIKi-67 and estrogen receptor in ADH and DCIS. The expression of cyclin D1 was detected in 39.5% of DCIS and 7.7% of ADH cases. In the DH cases, expression of cyclin D1 was not found. Expression of cyclin B1 was also detected in 69.7% of DCIS, 50.0% of ADH and 93.3% of the DH cases. The PIcyclin D1 was significantly different among these three groups. Moreover, the PIcyclin D1 and PIKi-67 were differed significantly between the low grade DCIS and ADH cases. However, PIcyclin B1 only appeared to be significantly different between the total DCIS and ADH. Results of the correlation coefficient among PIcyclin D1, PIcyclin B1 and PIKi-67 were positively correlated with each other. No significant correlation was found between the expression of ER and cyclin D1 in ADH and DCIS. In summary, our results support the hypothesis that a cyclin D1 and cyclin B1 protein aberration, along with Ki-67, may act as a relatively early event in the tumor development from ADH to carcinoma.
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PMID:Expression of cyclins in ductal hyperplasia, atypical ductal hyperplasia and ductal carcinoma in situ of the breast. 1095 89

Complexes of D-type cyclins and cdk4 or 6 are thought to govern progression through the G(1) phase of the cell cycle. In Drosophila, single genes for Cyclin D and Cdk4 have been identified, simplifying genetic analysis. Here, we show that Drosophila Cdk4 interacts with Cyclin D and the Rb homolog RBF as expected, but is not absolutely essential. Flies homozygous for null mutations develop to the adult stage and are fertile, although only to a very limited degree. Overexpression of inactive mutant Cdk4, which is able to bind Cyclin D, does not enhance the Cdk4 mutant phenotype, confirming the absence of additional Cyclin D-dependent cdks. Our results indicate, therefore, that progression into and through the cell cycle can occur in the absence of Cdk4. However, the growth of cells and of the organism is reduced in Cdk4 mutants, indicating a role of D-type cyclin-dependent protein kinases in the modulation of growth rates.
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PMID:Drosophila Cdk4 is required for normal growth and is dispensable for cell cycle progression. 1097 Aug 47


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