EC:2.7.11.22 - FACTA Search

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)

Cell cycle progression is regulated by cyclin-dependent kinases. Using in vitro replication of SV40 origin containing DNA as a model system, we have performed a detailed analysis of the dependence on cyclin-associated kinases of mammalian DNA replication. Complete immunodepletion of cyclin A from human S phase cell extracts decreases replication, and replication activity of cyclin A-depleted S phase extracts can subsequently be restored by the addition of purified CDK2-cyclin A kinase. Addition of cyclin A alone reconstitutes both kinase activity and DNA replication, whereas addition of cyclin E or cyclin B reconstitutes neither. We therefore conclude that reconstitution of DNA replication specifically correlates with an increase in kinase activity. By comparison, depletion of cyclin E from S phase cell extracts does not have any significant inhibitory effect on DNA replication. Moreover, specific p21(Waf1) mutants that bind to CDK2-cyclin and inhibit both cyclin A and cyclin E kinase activities, but do not bind to proliferating cell nuclear antigen, inhibit DNA replication to the same extent as cyclin A depletion. Together, these results show that the kinase activity associated with cyclin A, but not with cyclin E, is primarily responsible for activating SV40 plasmid replication in mammalian S phase cell extracts. Finally, we present evidence that the cyclin-dependent kinase does not influence the assembly of initiation complexes but acts at a stage prior to elongation.
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PMID:Role for cyclin A-dependent kinase in DNA replication in human S phase cell extracts. 894 Jan 82

Four new cell lines were established from patients with soft tissue sarcomas. Drug sensitivity as well as genotypic characterization, which may be related to drug sensitivity in these cell lines, was determined. Karyotype, H-ras, c-myc and mutant p53 gene expression, Rb, G1- and S-phase cyclins, E2F and major cyclin/CDK inhibitors such as p16 and p21 and p-glycoprotein were analyzed using cytogenetic, Northern blot and immunological methods. Drug sensitivity was determined using growth inhibition tests. These cell lines differed in their morphology and growth rates, forming colonies in soft agar with a cloning efficiency of 4.3-13.4%, and 3 of the 4 cell lines grew in nude mice. Cytogenetic analysis of cell lines revealed highly aneuploid karyotypes. Deletion and/or translocation of chromosome 17 was seen in HS-16, HS-18 and HS-30 cells, and both copies of chromosome 13 were lost or re-arranged in the HS-18 cell line. Mutant p53 protein was present in all 4 cell lines. HS-18 cells showed no expression of the Rb protein and high levels of expression of E2F, cyclin A, cyclin E and CDK2. HS-16 expressed a higher level of cyclin D than the other 3 cell lines. p21WAF1 expression was seen in all cell lines, but p16ink4 was expressed only in HS-30 and HS-42 cell lines. These cell lines were sensitive to taxol and relatively resistant to methotrexate, vinblastine and 5-fluorouracil when compared with the fibrosarcoma cell line HT-1080. These new cell lines should provide a useful model for the study of soft tissue sarcomas and for evaluating new drugs or treatments.
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PMID:Establishment, characterization and drug sensitivity of four new human soft tissue sarcoma cell lines. 894 24

The family of cyclins and cyclin-dependent kinases (CDKs) are important participants in the regulation of eukaryotic cell cycle. Our purpose was to examine temporal expressions of cyclins and CDKs during renal development and compensatory growth. During embryonic development the mRNA levels of all cyclins were high, and after birth their levels decreased at different rates. G2 and M phase cyclins, cyclin A and B, decreased immediately after birth. G1 and S phase cyclins, cyclins D1, D2, D3, and E, were observed during all stages of development and maintained almost constant levels until seven days after birth. They decreased thereafter and expressed very low levels during the adult period. The protein levels of cdc2, CDK2, and proliferating cell nuclear antigen (PCNA) were high during embryonic renal development and slowly decreased after birth. Their levels were very low during the youth and adult periods. Levels of CDK4 protein were high and did not change during renal development. Compensatory hypertrophic renal growth (CHRG) induced by unilateral nephrectomy (Unx) did not increase any cyclins, CDKs or PCNA. Subtotal nephrectomy (Snx) did not increase any cyclins or CDKs in remaining viable renal tissue (RVRT). However, Snx increased PCNA in RVRT. An immunohistochemical study revealed that PCNA was induced in a limited area adjacent to ischemic areas. Interestingly, Western blot analysis of protein extracts from RVRT showed the induction of a new 40 kDa protein that cross-reacted with the cyclin D3 antibody. These findings suggest that the marked reductions in mitotic cyclins may be associated with the withdrawal of renal cell cycle after birth. In addition, expressions of cyclins and CDKs did not change in the adult kidney during active phase of compensatory hypertrophic growth.
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PMID:Temporal expressions of cyclins and cyclin dependent kinases during renal development and compensatory growth. 906 8

Wild-type human p53 gene was transfected into the human glioma cell line T-98G. Transfectants were then isolated and characterized for growth potential and differentiation phenotype. Growth suppression, overexpression of GFAP, and accumulation in G1 phase were more commonly observed in transfectants than in T-98G cells. p21WAF1/CIP1 was overexpressed in transfectants, and the binding of PCNA and CDK 2 to p21WAF1/CIP1 were increased in transfectants. These results suggested the roles of p21WAF1/CIP1, PCNA, and CDK2 in regulation of differentiation in glioma cells and the gene transfer of wild-type p53 may be effective for the control of glial differentiation in glioma cells.
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PMID:Induction of differentiation by wild-type p53 gene in a human glioma cell line. 912 May 41

Differential Display was used to isolate genes that show transcriptional changes in the kidney during the development of diabetes in the GK rat. Eight candidate diabetes-associated cDNA fragments, CDK1-8, were isolated and characterised. cDNA sequencing and subsequent database analysis revealed that CDK2, 4, 5 and 6 showed no significant sequence similarity to previously reported genes, suggesting that they represent novel genes, whereas CDK 1, 3, 7 and 8 showed significant similarity with rat lactate dehydrogenase, rat amiloride sensitive sodium channel, EST109013 and mouse ubiquitin-like protein respectively. The differential mRNA expression of CDK1-8 was confirmed using differential screening of slot blots. CDK1, 2, 4 and 8 mRNAs appeared to increase whereas CDK3, 5, 6 and 7 mRNAs decreased in the kidneys of GK rats with increasing hyperglycaemia. The altered renal mRNA expression of these genes in association with increased hyperglycemia in the GK rat suggest that they are candidates for a role in the development of diabetic nephropathy.
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PMID:Isolation of diabetes-associated kidney genes using differential display. 912 49

CDK inhibitors are thought to prevent cell proliferation by negatively regulating cyclin-CDK complexes. We propose that the opposite is also true, that cyclin-CDK complexes in mammmalian cells can promote cell cycle progression by directly down-regulating CDK inhibitors. We show that expression of cyclin E-CDK2 in murine fibroblasts causes phosphorylation of the CDK inhibitor p27Kip1 on T187, and that cyclin E-CDK2 can directly phosphorylate p27 T187 in vitro. We further show that cyclin E-CDK2-dependent phosphorylation of p27 results in elimination of p27 from the cell, allowing cells to transit from G1 to S phase. Moreover, mutation of T187 in p27 to alanine creates a p27 protein that causes a G1 block resistant to cyclin E and whose level of expression is not modulated by cyclin E. A kinetic analysis of the interaction between p27 and cyclin E-CDK2 explains how p27 can be regulated by the same enzyme it targets for inhibition. We show that p27 interacts with cyclin E-CDK2 in at least two distinct ways: one resulting in p27 phosphorylation and release, the other in tight binding and cyclin E-CDK2 inhibition. The binding of ATP to the CDK governs which state predominates. At low ATP (< 50 microM) p27 is primarily a CDK inhibitor, but at ATP concentrations approaching physiological levels (> 1 mM) p27 is more likely to be a substrate. Thus, we have identified p27 as a biologically relevant cyclin E-CDK2 substrate, demonstrated the physiological consequences of p27 phosphorylation, and developed a kinetic model to explain how p27 can be both an inhibitor and a substrate of cyclin E-CDK2.
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PMID:Cyclin E-CDK2 is a regulator of p27Kip1. 919 73

In the present study we have characterized eight human esophageal squamous carcinoma cell lines for levels of expression of cyclins D1, E, A and B1; CDKs 1, 2 and 4; the CDK inhibitors p16INK4, p21WAF1 and p27KIP1; the retinoblastoma (Rb) protein; and in vitro CDK2- and CDK4-associated kinase activity; and also compared the growth properties of these cell lines. The level of the cyclin D1 protein varied by over 30-fold amongst the eight cell lines. The high level in two cell lines was associated with amplification of this gene, but in three cell lines it was due to post-transcriptional events. Amongst the eight cell lines there was a significant correlation between the levels of cyclin D1, Rb and p27KIP1 proteins, and CDK4-associated kinase activity. Furthermore, when an exogenous cyclin D1 cDNA was over-expressed in the EC109 cell line by transfection, this led to increased expression of both Rb and p27KIP1. There was, however, no correlation between the level of cyclin D1 expression and the cell doubling times, duration of the G1 phase, or colony-forming efficiency in agar. Two of the cell lines displayed a high level of the cyclin E protein, low levels of cyclin D1, lacked expression of the Rb protein and expressed high levels of the p16INK4 protein. One of these cell lines displayed amplification of the latter gene. There was no correlation between the levels of cyclins E or A and in vitro CDK2 kinase activity, but CDK2 kinase activity was inversely correlated with the duration of the G1 phase of the cell cycle. Taken together, these studies indicate marked heterogeneity in the expression of cell cycle-related proteins amongst a series of esophageal carcinoma cell lines. The correlation between the levels of the cyclin D1, Rb and p27Kip1 proteins suggest the existence of a homeostatic feedback loop between positive and negative acting components of the cell cycle machinery.
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PMID:Increased expression of the P27KIP1 protein in human esophageal cancer cell lines that over-express cyclin D1. 921 95

It has been demonstrated that infection of primary human cells with adeno-associated viruses (AAV) leads to a decrease in cellular proliferation and to growth arrest. We analyzed the molecular basis of this phenomenon and observed that infection with AAV type 2 (AAV2) had an effect on several factors engaged in the control of the mammalian cell cycle. In particular, all of the pRB family members, pRB, p107, and p130, which are involved in G1 cell cycle checkpoint control, were affected. After infection, a shift from hyper- to hypophosphorylated forms was observed. Cyclins A and B1, which are required for G1/S transition and progression into mitosis, respectively, were downregulated at the transcriptional level as well as at the protein level, whereas the G1 cyclins D1 and E remained unaffected. In addition, the steady-state levels of cyclin-dependent kinases CDK1 and CDK2 and of transcription factor E2F-1 were diminished. Of all the factors known to be involved in phosphorylation of pRB family proteins, only the CDK inhibitor p21WAF1 exhibited a response to AAV2 infection. p21WAF1 mRNA was quickly and progressively upregulated in a p53-independent manner over at least 72 h. Consistent with the increased p21WAF1 protein levels, cyclin E- and cyclin A-dependent kinase activities declined to low levels and E2F-p130-cyclin-CDK2 complexes were disrupted. From these data, we conclude that the major effect of AAV2 infection on primary human fibroblasts appears to be upregulation of p21WAF1 gene expression and thus cell cycle arrest by the suppression of pRB family protein phosphorylation.
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PMID:Infection of primary cells by adeno-associated virus type 2 results in a modulation of cell cycle-regulating proteins. 922 93

The molecular mechanisms that arrest cardiomyocytes in the cell cycle during the postnatal period remain largely unknown. We have examined changes of the expression of cyclins and CDKs, the activity of each CDK in cardiomyocytes during the postnatal period, and have compared those changes with rate of binucleation formation of cardiomyocytes in rats. The mRNA and protein levels of cyclin D1, A and B in cardiomyocytes were high at day 1, then the levels decreased at different rates during the postnatal period. While the protein levels of cyclin A and B rapidly decreased, the protein level of cyclin D1 was relatively constant. The protein levels of CDK4, CDK2, and cdc2 in cardiomyocytes were high at day 1, then their levels gradually decreased. However, the activity of CDK4, which is responsible for G1 phase of cell cycle, was detectable only at day 1. The activity of CDK2 activity, which is responsible for the S phase of cell cycle, was relatively high at day 1, decreased at day 2, abruptly decreased at day 4, maintained the same low level until day 10, and barely or not detectable thereafter in cardiomyocytes. The activity of cdc2 was high at day 1, increased by 20% at day 2, and then gradually decreased thereafter, although approximately 50% of maximum activity was present at day 6. Most cardiomyocytes were mononucleated during the first 2 days postnatal. The percentage of binucleated cardiomyocytes increased from 2.5% at day 2, 14% at day 4, 50% at day 8, 80% at day 14, and had reached adult levels at day 21 after birth. During active binucleation formation in neonatal (from days 1-14) cardiomyocytes, CDK4 or CDK2 was functionally negligible, while cdc2 was functionally active. These data suggest that there were differential and dramatic decrease of CDK4 and CDK2 activities in cardiomyocytes during neonatal period, and the functionally active cdc2 in neonatal cardiomyocytes may be involved in binucleation formation.
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PMID:Differential and dramatic changes of cyclin-dependent kinase activities in cardiomyocytes during the neonatal period. 1160 19

The amino-terminal portion of polyomavirus (Py) large T antigen (T Ag) contains two phosphorylation sites, at T187 and T278, which are potential substrates for cyclin-dependent kinases (CDKs). Our experiments were designed to test whether either or both of these sites are involved in the origin DNA (ori DNA) replication function of Py T Ag. Mutations were generated in Py T Ag whereby either or both threonines were replaced with alanine, generating T187A, T278A, and double-mutants (DM [T187A T278A]) mutant T Ags. We found that the Py ori DNA replication functions of T278A and DM, but not T187A, mutant T Ags were abolished both in vivo and in vitro. Consistent with this finding, it was shown that the ori DNA binding and unwinding activities of mutant T278A Py T Ag were greatly impaired. Moreover, whereas wild-type Py T Ag is an efficient substrate for phosphorylation by cyclin A-CDK2 and cyclin B-cdc2 complexes, it is phosphorylated poorly by a cyclin E-CDK2 complex. In contrast to mutant T187A, which behaved similarly to the wild-type protein, T278A was only weakly phosphorylated by cyclin B-cdc2. These data thus suggest that T278 is an important site on Py T Ag for phosphorylation by CDKs and that loss of this site leads to its various defects in mediating ori DNA replication. S- and G2-phase-specific CDKs, but not a G1-specific CDK, can phosphorylate wild-type T Ag, which suggests yet another reason why DNA tumor viruses require actively cycling host cells.
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PMID:Cyclin-dependent kinase regulation of the replication functions of polyomavirus large T antigen. 926 66

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