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 E2F transcription factor has been found in association with the cyclin A protein, and this complex accumulates during the S phase of the cell cycle, suggesting that E2F may play a role in cell cycle control. In independent studies, cyclin A has been shown to be associated with two other proteins, the Rb-related p107 protein and the cdc2-related p33 cdk2 protein kinase. Through an analysis of the E2F-cyclin A complex, we now find that both the p107 protein and the cdc2-related p33cdk2 kinase are components of the previously described complex. Moreover, the complex possesses H1 kinase activity. These results thus define a cyclin A-cdk2 kinase complex that possesses sequence-specific DNA binding activity. This suggests that the cdk2 kinase may phosphorylate other DNA-bound substrates, and that one role of the E2F factor may be to localize this protein kinase to the DNA.
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PMID:A cyclin A-protein kinase complex possesses sequence-specific DNA binding activity: p33cdk2 is a component of the E2F-cyclin A complex. 131 73

The product of the retinoblastoma susceptibility gene (Rb) is a substrate of the cell cycle-regulated cdc2 and cdk kinases. The Rb protein is phosphorylated from S through M phases of the cell cycle and is dephosphorylated in G1. In in vivo phosphorylated Rb protein, we have found ten phosphotryptic peptides, all of which could be phosphorylated by cdc2 kinase, p34cdc2, in vitro. The sites of phosphorylation for eight of the ten peptides have been mapped and they conform to the known p34cdc2 phosphorylation consensus. Although the activated p34cdc2 in mitotic cells is the major phosphorylation enzyme for Rb, the Rb kinase activity of p34cdc2 is not activated at G1/S transition. A cyclin A/p33 complex is activated at G1/S. We have assembled active cyclin B1/p34cdc2 complex in insect cells. The insect cell-derived kinase complex phosphorylates histone H1 well but exhibits a poor Rb kinase activity. These results indicate that the retinoblastoma protein is phosphorylated by distinct cyclin/kinase complexes in the cell cycle and suggest a regulation of the substrate specificity of the p34cdc2/cyclin complex.
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PMID:Cell cycle regulation of retinoblastoma protein phosphorylation. 148 48

In yeast, the protein kinase p34cdc2 plays a role in regulating both the G2 to M and G1 to S phase transitions. The discovery of multiple homologues of the protein in cells of higher eukaryotic organisms suggests that different cell cycle regulatory events may be performed by different kinases in such cells. Here, the synthesis and metabolism of the human forms of these proteins are described in a normal human cell type, peripheral blood T lymphocytes that have been stimulated to enter the cell cycle in vitro. Using a carboxyl-terminus antiserum specific for true p34cdc2, the protein could first be found in T cells at about 24 to 30 h after stimulation, just before the initiation of DNA synthesis. Three forms of the enzyme could be resolved by denaturing gel electrophoresis: an unphosphorylated form with an apparent molecular mass of 34,500 daltons and two phosphorylated derivatives. In cells synchronized at G2/M phase with nocodazole, p34 was almost entirely in the unphosphorylated form whereas the phosphorylated derivatives were more predominant in cultures arrested at the G1/S border with aphidicolin. The relationship of p34 synthesis to the phosphorylation of p110Rb, an event known to be associated with passage through late G1 and/or the G1/S phase transition, was also investigated. It was noted that p110Rb phosphorylation began before p34 synthesis first became detectable. Furthermore, it appeared that the two events could be largely uncoupled by treating cells with deferoxamine (10 microM), an iron chelating agent that arrests T cells at a point in late G1 phase but substantially before the G1 to S phase transition. Under these conditions, p110Rb phosphorylation was almost completely accomplished in the absence of significant p34 synthesis, a finding that suggests that most or all of p110 phosphorylation is performed by kinases other than p34. Because of this observation, extracts were next examined for p34-like molecules using an antibody against the so-called PSTAIRE domain found in all cdc2 homologues identified to date. A species of protein with a mobility slightly less than true p34 was found, even in resting T cells. Upon stimulation, this protein increased slightly in amount, and a second protein with a mobility greater than p34, a putative p33cdk2, was seen. Not only was the appearance of these proteins not inhibited by deferoxamine but they accumulated in cultures treated with the drug, suggesting that p33, and not p34, may be the G1 phase kinase for p110Rb.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of synthesis of p34cdc2 and its homologues and their relationship to p110Rb phosphorylation during cell cycle progression of normal human T cells. 154 21

Cyclins are regulatory subunits which associate with kinases to form complexes that control many of the important steps in cell-cycle progression. The best characterized of the cyclin-containing complexes is the association of cyclin B with the p34cdc2 kinase. The p34cdc2/cyclin B complex is required for the G2 to M transition (see refs 1-4 for review), but the physiological role of other cyclin complexes is unclear. Human cyclin A binds independently to two kinases, associating with either p34cdc2 or a related protein, p33 (refs 5-7). In adenovirus-transformed cells, the viral E1A oncoprotein seems to associate with p33/cyclin A but not with p34cdc2/cyclin A (B. Faha, M.M., L-H.T. and E.H., manuscript submitted). To isolate the gene for p33, we have cloned several novel human cdc2-related genes. The protein product of one of these genes, cdk2 (cyclin-dependent kinase 2), shares 65% sequence identity with p34cdc2 (ref. 8) and 89% identity with the Xenopus Eg-1 gene product. Immunochemical characterization and partial proteolytic mapping show that the cdk2 gene product is the cyclin A-associated p33. Immunoprecipitations of the p33cdk2 protein suggest that it can act as a protein kinase in vitro. As p33cdk2 is bound to cyclin A and is targeted by the viral E1A protein, we suggest that the p33cdk2/cyclin A complex has a unique role in cell-cycle regulation of vertebrate cells.
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PMID:Isolation of the human cdk2 gene that encodes the cyclin A- and adenovirus E1A-associated p33 kinase. 165 4

An increase in tyrosine phosphorylation of two hepatic S9 proteins migrating at 34 and 33 kDa that cross-reacted with anti-PSTAIR antibody on immunoblots was seen 24 h after administration of a single dose of 0.25, 0.5, 1 or 2 micrograms 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)/kg to C57BL/6J female mice. Two hepatic S9 proteins migrating at 34 and 33 kDa that cross-reacted with anti-cdc2 C-terminus antibody on immunoblots were observed in corn oil control mice; increased expression of these proteins was seen with increasing doses of TCDD. A maximal increase in expression of 3-times the control was observed at 1 and 2 micrograms TCDD/kg for both p34 and p33. The stimulation of enhanced tyrosylphosphorylation and expression of cyclin dependent kinases p34cdc2 and p3cdk2 by TCDD is consistent with a mechanism of action of TCDD toxicity associated with stimulation of cellular proliferation.
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PMID:Acute 2,3,7,8-tetrachlorodibenzo-p-dioxin exposure results in enhanced tyrosylphosphorylation and expression of murine hepatic cyclin dependent kinases. 750 35

Some growth factors transduce positive growth signals, while others can act as growth inhibitors. Nuclear signaling events of previously quiescent cells stimulated with various growth factors have been studied by isolating the complexed chromatin-associated proteins and chromatin-associated proteins. Signals from the plasma membrane are integrated within the cells and quickly transduced to the nucleus. It is clear that several growth factors, such as epidermal growth factor, transforming growth factor alpha (but not transforming growth factor beta), and platelet-derived growth factor, utilize similar intracellular signaling biochemistries to modulate nucleosomal characteristics. The very rapid and consistent phosphorylation of nuclear p33, p54, and low molecular mass proteins in the range of 15-18 kDa after growth factor stimulation implies that there is a coordination and integration of the cellular signaling processes. Additionally, phosphorylation of p33 and some low molecular mass histones has been found to occur within 5 min of growth factor treatment and to reach a maximum by 30 min. In this study, we report that Neu receptor activating factor also utilizes the same signaling mechanism and causes p33 to become phosphorylated. In addition, both the tumor promoter okadaic acid (which inhibits protein phosphatases 1 and 2A) and phorbol ester (phorbol 12-tetradecanoate 13-acetate) stimulate phosphorylation of p33, p54, and low molecular mass histones. However, transforming growth factor beta, which is a growth inhibitor for fibroblasts, fails to increase p33 phosphorylation. In general, p33 phosphorylation patterns correspond to positive and negative mitogenic signal transduction. p33 isolated from the complexed chromatin-associated protein fraction appears to be a kinase, or tightly associated with a kinase, and shares antigenicity with the cell division cycle-dependent Cdk2 kinase as determined by antibody-dependent analysis. The rapid phosphorylation of nucleosomal proteins may influence sets of early genes needed for the induction and progression of the cell cycle.
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PMID:A kinase associated with chromatin that can be activated by ligand-p185c-Neu or epidermal growth factor-receptor interactions. 760 37

Iron removal by the chelating-agent deferoxamine (DFO) arrests cell cycle progression of activated human T cells in late G1 phase, before the G1/S border. The effects of the drug on molecules that regulate progression through the cell cycle were defined. DFO (10 mumol/L) inhibited induction of transcription of the cdc2 gene, but had no effect on accumulation of cdk2, cdk4, or interleukin (IL)-2-transcripts. No detectable p34cdc2 protein accumulated, but synthesis of the p33cdk2 protein was begun. It accumulated to normal levels during the first 20 to 30 hours of incubation in the presence of DFO. Furthermore, p33cdk2 was activated as an H1 histone kinase. As active p33cdk2 primarily represents complexes of the p33 protein with cyclin E or cyclin A, the effects of DFO on these cyclins were examined. Although the induction of synthesis and early accumulation of cyclin E and cyclin E-associated kinase activity appeared normal, the appearance of cyclin A and cyclin A-associated kinase activity were inhibited by DFO. However, the production of cyclin A mRNA appeared to be normal in the presence of DFO. A major effect of DFO in blocking cell cycle progression may be mediated through inhibition of the appearance of cyclin A protein and, therefore, a major component of p33cdk2 activity. The results also indicate that the p33cdk2/cyclin E activity produced in the presence of DFO was not sufficient for completion of the G1 phase of the cell cycle.
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PMID:Effects of iron-depletion on cell cycle progression in normal human T lymphocytes: selective inhibition of the appearance of the cyclin A-associated component of the p33cdk2 kinase. 766 74

Oncoprotein 18 (Op18) has been independently identified due to its increased phosphorylation in response to external signals and its up-regulated expression in acute leukemia. We have identified two serine residues of Op18 that are phosphorylated after triggering by the T cell antigen receptor. One of these residues, Ser25, was shown to be a likely substrate for the mitogen-activated protein (MAP) kinase, while the other residue, Ser16, was shown to be phosphorylated in response to increased intracellular calcium. Our previous site-mapping studies of Op18 also revealed that basal phosphorylation of Op18 is mainly located on Ser38, which was found to be the primary in vitro phosphorylation site of p13suc1-precipitated cdc2 kinase activities. These findings raised the possibility that Op18 may be a substrate for both receptor-regulated calcium-induced protein kinases and the MAP kinase family, as well as being a substrate for the cell-cycle-regulated cdc2 kinase family. In the present report we have performed site-mapping studies of cell-cycle-regulated fluctuations of Op18 phosphorylation. The results reveal that S-phase progression of a synchronised leukemic T cell line is associated with increased phosphorylation of both the Ser25 and Ser38 residues. Moreover, during mitosis, a burst of phosphorylation was observed and at this stage of the cell cycle a major fraction of Op18 was phosphorylated at multiple sites. Phosphorylation of Op18 during mitosis was located primarily on Ser38 and to lesser extent on Ser25, Ser16 and at an unidentified C-terminal residue. In vitro phosphorylation experiments, employing two distinct members of the cdc2 kinase family, were consistent with involvement of both p34-cdc2 and p33-cdk2 in cell-cycle-regulated phosphorylation of Ser25 and Ser38 of Op18. Most importantly, the ratio of Ser25/Ser38 phosphorylation observed in vitro, using either p34-cdc2 or p33-cdk2, was found to be the same as the ratio observed in intact cells during all phases of the cell cycle. These findings suggest that Op18 may be a physiological substrate for several members of the cdc2 kinase family during both the S-phase and the mitotic phase of the cell cycle.
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PMID:Cell-cycle-regulated phosphorylation of oncoprotein 18 on Ser16, Ser25 and Ser38. 812 92

Cyclin A associates with both the p34 cdc2 and p33 cdk2 kinases and is involved at two major check-points (G1-S and G2-M) of the cell cycle. The cyclin has been identified in multimeric protein complexes that incorporate the E2F transcription factor, the p33 cdk2 kinase, and p107, which is related to the retinoblastoma protein. Therefore, cyclin A provides a link between studies on the cell-cycle machinery and those aiming to elucidate the modulation of cell proliferation and regulation of gene expression by oncogenes and growth-suppressor proteins. The modification of cyclin A expression in a human liver cancer by the insertion of hepatitis B viral DNA into the cyclin A gene, and binding of cyclin A to the oncogenic E1A viral protein in adenovirus-infected cells suggest that the cyclin is implicated in human carcinogenesis. In addition, cyclin A might also be considered as a marker for tumor-cell proliferation in oncology. With these views in mind, it is now important to extend these observations to other types of cancer.
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PMID:Oncogenic activation of cyclin A. 838 33

The genes that encode human cdc2 and cdk2 proteins are essential for cell cycle progression. In this report, we describe the purification of cyclin-associated cdc2 and cdk2 kinases as well as cyclin-free cdc2 and cdk2 protein preparations from HeLa cells. The cdc2-cyclin B kinase complex that we have isolated, consisting of two polypeptides of p60 (cyclin B) and p34 (cdc2), phosphorylated both the p34 and p70 subunits of the three-subunit human single-stranded DNA-binding protein (also called RP-A), a DNA replication and repair factor. We also partially purified a histone H1 kinase activity that is associated with the cdk2 and cyclin A proteins. Purified human cyclins A and B1, overproduced in bacteria, complemented a cellular fraction enriched in cdc2 and cdk2 proteins to reconstitute histone H1 kinase activity. Using this complementation system, human cdc2 and cdk2 proteins were purified and separated from one another. Glycerol gradient analyses demonstrated that the purified cdk2 (p33) protein co-sedimented with a cyclin A-dependent H1 kinase activity. Thus, cdk2 and cyclin A proteins are components that assemble to yield a kinase complex that catalyzes the phosphorylation of histone H1.
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PMID:Reconstitution of cyclin-dependent cdc2 and cdk2 kinase activities in vitro. 839 6


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