EC:2.7.11.22 - FACTA Search

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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)

When treated with 17alpha,20beta-dihydroxy-4-pregnen-3-one (17alpha,20beta-DP), a natural maturation-inducing hormone in fishes, fully grown zebrafish oocytes are induced to mature via the activation of the maturation-promoting factor (MPF), which consists of cdc2 (a catalytic subunit) and cyclin B (a regulatory subunit). In contrast, 17alpha,20beta-DP is unable to induce growing (previtellogenic and vitellogenic) oocytes to mature. To know the reason growing oocytes fail to mature upon 17alpha,20beta-DP treatment, we investigated changes in the components of machinery responsible for MPF activation during zebrafish oogenesis. Immunoblotting experiments using monoclonal antibodies against cdc2, cyclin B, and cdk7 (an activator of cdc2) have revealed that the concentrations of cdc2 and cdk7 are almost constant during oogenesis. Cyclin B was present in mature oocytes but absent in growing and fully grown immature oocytes. These results, which are identical to those in goldfish, strongly suggest that cyclin B is synthesized from stored (masked) mRNA after 17alpha,20beta-DP stimulation and that its binding to the preexisting cdc2 allows cdk7 to activate MPF. Microinjection of cyclin B protein induced MPF activation and germinal vesicle breakdown in growing oocytes, as well as in fully grown oocytes, indicating that cdk7 present in growing oocytes is already active. Northern blot analysis revealed the presence of cyclin B mRNA in both previtellogenic and fully grown oocytes. These results indicate that, as in fully grown oocytes, growing oocytes are already equipped with the catalytic subunit of MPF (cdc2) and its activator (cdk7) and that the appearance of the regulatory subunit of MPF (cyclin B) is sufficient for initiating maturation. Therefore, the unresponsiveness of growing oocytes to 17alpha,20beta-DP is attributable to a deficiency in the processes leading to cyclin B synthesis, which include 17alpha,20beta-DP reception on the oocyte surface, subsequent signal transduction pathways, and unmasking the stored cyclin B mRNA.
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PMID:Introduction of cyclin B induces activation of the maturation-promoting factor and breakdown of germinal vesicle in growing zebrafish oocytes unresponsive to the maturation-inducing hormone. 933 37

The eukaryotic cell cycle is a summary of a complex network of signal transduction pathways resulting in both DNA replication and cell division. Cyclin-dependent kinases (CDKs) control the cell cycle in all eukaryotes, whereas other proteins, known as cyclins, act as their regulatory subunits. Chronic injection with isoproterenol (ISO) can induce acinar cell proliferation in rodent salivary glands. Cyclins and CDK proteins from control and ISO-treated murine parotid acinar cells were detected by using Western blotting techniques. By comparing the expression of these cell cycle regulatory kinases in the parotid acinar cell transition from a quiescent state to a hypertrophic state, we found rapid increases in the protein levels of all CDKs, cyclin D and proliferating cell nuclear antigen (PCNA). The highest protein levels for CDKs and cyclins appeared at about 72 hr of ISO stimulation and were coincident with the highest rate of increase in gland wet weight. After 72 hr, the increase of both cell cycle protein and gland wet weight began to subside. By using a co-immunoprecipitation method, the following cell cycle regulators (CDK-cyclin complexes) were detected, CDK4-cyclin D, CDK2-cyclin E, CDK2-cyclin A, and cdc2-cyclin B, along with an increase in kinase activity over control untreated animals. Additionally, we detected significant decreases in the newly isolated CDK inhibitor (CKI) p27kip but not Wee 1 kinase. The increased levels of CKI correlated with a decrease in kinase activity of CDK/cyclin complexes by 144 hr of chronic isoproterenol treatment. Our data suggest that the holoenzymes for cell cycle control (cyclin-CDK complexes) function as a final regulatory mechanism leading to salivary gland acinar cell proliferation. The gradual decline in protein levels of the CDKs and cyclins after 3 days of chronic treatment further indicates that ISO-induced proliferation of parotid acinar cells is self-limiting and non-tumorigenic.
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PMID:Cell cycle control in isoproterenol-induced murine salivary acinar cell proliferation. 937 66

This report examines in detail the metabolism of the cyclin protein B1 during meiotic maturation and following the activation of mature mouse oocytes using immunoprecipitation of the radiolabelled protein. The net synthesis of cyclin B increases progressively during meiotic maturation, reaching its maximum levels at least 1 h before oocytes exit into metaphase of meiosis II (MII). This increase correlates with the rise in cdc2 kinase activity reported previously and suggests an association between the length of the first meiotic M phase (MI) and the net synthesis of cyclin B, that seems to regulate the time required for the cdc2 kinase to reach its maximum activity. Moreover, no marked degradation of cyclin B was observed before the MI to MII transition and that which occurs does so independently of the presence of microtubules, which are essential for cyclin degradation during metaphase II arrest and exit of oocytes into interphase of the first mitotic cell cycle. Cyclin B is degraded rapidly during the transitions MI to MII, MII to the first mitotic interphase and MII to an abortive third metaphase state (MIII). However, whilst its degradation was incomplete during the MI to MII transition, virtually no cyclin B protein was detected following both the MII to interphase and MII to MIII transitions. Thus, the decision of oocytes to exit into MIII, or interphase is not controlled at the level of cyclin B degradation. Lastly, in aging, non-activated oocytes, the net synthesis of cyclin B declines. Whereas, in activated eggs cultured in parallel although the rate of net synthesis declines initially, it is effectively 'rescued' being two-fold greater than in non-activated oocytes of an equivalent age. This gradual fall in the net synthesis of cyclin B observed in aging oocytes may contribute to the increasing ease with which they become activated, compared to recently ovulated oocytes.
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PMID:Stability of cyclin B protein during meiotic maturation and the first mitotic cell division in mouse oocytes. 942 4

We show that a splice variant-derived cyclin B is produced in sea urchin oocytes and embryos. This splice variant protein lacks highly conserved sequences in the COOH terminus of the protein. It is found strikingly abundant in growing oocytes and cells committed to differentiation during embryogenesis. Cyclin B splice variant (CBsv) protein associates weakly in the cell with Xenopus cdc2 and with budding yeast CDC28p. In contrast to classical cyclin B, CBsv very poorly complements a triple CLN deletion in budding yeast, and its microinjection prevents an initial step in MPF activation, leading to an important delay in oocyte meiosis reinitiation. CBsv microinjection in fertilized eggs induces cell cycle delay and abnormal development. We assume that CBsv is produced in growing oocytes to keep them in prophase, and during embryogenesis to slow down cell cycle in cells that will be committed to differentiation.
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PMID:A presumptive developmental role for a sea urchin cyclin B splice variant. 944 4

Cdk7 has been shown previously to be able to phosphorylate and activate many different Cdks in vitro. However, conclusive evidence that Cdk7 acts as a Cdk-activating kinase (CAK) in vivo has remained elusive. Adding to the controversy is the fact that in the budding yeast Saccharomyces cerevisiae, CAK activity is provided by the CAK1/Civ1 protein, which is unrelated to Cdk7. Furthermore Kin28, the budding yeast Cdk7 homolog, functions not as a CAK but as the catalytic subunit of TFIIH. Vertebrate Cdk7 is also known to be part of TFIIH. Therefore, in the absence of better genetic evidence, it was proposed that the CAK activity of Cdk7 may be an in vitro artifact. In an attempt to resolve this issue, we cloned the Drosophila cdk7 homolog and created null and temperature-sensitive mutations. Here we demonstrate that cdk7 is necessary for CAK activity in vivo in a multicellular organism. We show that cdk7 activity is required for the activation of both Cdc2/Cyclin A and Cdc2/Cyclin B complexes, and for cell division. These results suggest that there may be a fundamental difference in the way metazoans and budding yeast effect a key modification of Cdks.
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PMID:Cdk7 is essential for mitosis and for in vivo Cdk-activating kinase activity. 945 Sep 31

Cyclin-dependent protein kinases (Cdks) are key regulatory proteins of the eukaryotic cell cycle. The product of the cdc2 gene, p34cdc2 (cdk1), is the catalytic subunit of a serine/ threonine protein kinase that is expressed in S phase and functions in the G2 to M phase transition. Previous studies indicate that the human cdc2 gene expression is dependent on cell growth, and is transcriptionally regulated in a complex manner involving multiple transcription factors binding to specific sites in the promoter. One possible mechanism by which these transcription factors regulate transcription is that by binding to their cognate sites they induce bends in the DNA helix, thereby allowing their interaction with the basal transcription machinery through protein-protein contacts. Such protein-induced DNA bending is also influenced by intrinsic bends in the regulatory region. Using both theoretical and experimental approaches, the study reports that the human cdc2 promoter has an intrinsic DNA bend with a broad locus of curvature.
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PMID:Evidence for intrinsic DNA bends within the human cdc2 promoter. 947 77

We have performed biochemical analyses of cdk6 complexes in T cells. By gel filtration chromatography we observed at least three cdk6 containing complexes in the cell, the most abundant eluting at 450 kDa and 50-70 kDa and a minor complex eluting at 170 kDa. Cyclin D was present in the minor 170 kDa complex which co-eluted with the peak of cdk associated in vitro Rb kinase activity. Analysis of proteins that co-immunoprecipitated with cdk6 showed that the 450 kDa complex contained both Hsp90 and CDC37. The 50-70 kDa complex was made up of two moieties, a 66 kDa complex containing cdk6 bound to p19INK4d and monomeric cdk6. The subcellular localisation of the cdk6 complexes was analysed by preparing cytoplasmic and nuclear extracts. The 450 kDa complex was shown to be predominantly cytoplasmic, whereas the 170 kDa cyclin D/cdk6 and the 50-70 kDa complexes were present in both nuclear and cytoplasmic compartments. When these same extracts were assayed for cdk6 associated kinase activity, only the nuclear cdk6 complexes were active. These data suggest that even though there are cdk6/cyclin D complexes detectable in both the cytoplasm and nucleus, only the cdk6 that is in the nucleus is active.
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PMID:Active cdk6 complexes are predominantly nuclear and represent only a minority of the cdk6 in T cells. 948 6

Cyclin-dependent kinases (Cdks) and their cyclin partners regulate mammalian cell proliferation and withdrawal from the cell cycle and, as such, control differentiation in many tissues. Studies were undertaken to examine the roles of cell cycle proteins in differentiating cytotrophoblasts. Cyclin E gene and protein expression was down-regulated after 24 h in cultured trophoblasts. Cdk2-associated kinase activity was decreased after 96 h in culture as was the amount of cyclin E in complexes with Cdk2; however, levels of the Cdk inhibitor, p27Kip1, were significantly increased. In freshly isolated trophoblasts and in 24-h cultures, the retinoblastoma gene product (pRb) was found in both the active and inactive forms, yet only hypophosphorylated, active pRb was present in syncytiotrophoblast. Thus, inactivation of Cdk2 through cyclin E down-regulation and increased p27Kip1 expression leads to an accumulation of active pRb in syncytiotrophoblast. Prevention of entry into S phase by hypophosphorylated pRb may allow trophoblasts to respond to signals that potentiate differentiation. Our studies suggest that regulation of G1-phase Cdk activity may be involved in the terminal differentiation process of cytotrophoblasts.
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PMID:Expression of G1 cyclins and cyclin-dependent kinase-2 activity during terminal differentiation of cultured human trophoblast. 960 65

Cyclin dependent kinases propel the cell cycle in collaboration with cyclins. We have examined the expression of cdk2/cdc2 in adenoma and focal carcinoma in adenomatous tissue to explore their role in tumorigenesis of colorectum. Immunohistochemical study revealed that cdk2/cdc2 was overexpressed in a subsets of adenoma (14/50; 28.0%) but this overexpression was much more obvious in focal carcinoma (13/15; 86.7%). These results suggest that cdk2/cdc2 is remarkably upregulated together with a malignant change. In an effort to demonstrate a significant role for cdk2/cdc2 in colon cancer, we investigated growth and apoptosis with butyrolactone I, a specific inhibitor for cdk2/cdc2, using 4 colon carcinoma cell lines (HCT116, LoVo, HT29, Colo 320DM). Butyrolactone I inhibited proliferation of all colon carcinoma cell lines at 100 microM and it induced apoptosis in LoVo cell line with induction of p53. Our findings suggest that inhibition of cdk2/cdc2 may be a useful strategy against colon cancer.
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PMID:Cdk2/cdc2 expression in colon carcinogenesis and effects of cdk2/cdc2 inhibitor in colon cancer cells. 966 16

The E8 open reading frame of Bovine papillomavirus type 4 (BPV-4) encodes a small (42 amino acid) hydrophobic polypeptide localized to cellular membranes and capable of conferring an anchorage-independent (AI) growth phenotype on primary bovine cells co-transfected with BPV-4 E7 ORF and an activated ras gene. To further study the function of E8 independently of other viral gene products, we have expressed it in the murine fibroblast cell line, NIH3T3. Cells expressing E8 are capable of AI growth and escape growth arrest after serum withdrawal. E8 deregulates cyclin A expression, induces transactivation of the human cyclin A gene promoter and increases endogenous protein levels in cells maintained in short-term suspension culture and in low-serum (LS). Both these culture conditions promote downregulation of cyclin A in control cells. In LS growth conditions E8 permits sustained cyclin A-associated kinase activity but not cyclin E-cdk2 activity. Cyclin A-cdk2 activity and, in part, cyclin A gene expression are regulated by the cdk inhibitor p27Kip1. Expression of this cdk inhibitor is also de-regulated in E8 cells, with high levels being detected under all culture conditions tested. These data suggest that the ability of BPV-4 E8 to transform NIH3T3 cells is associated with upregulation of cyclin A-associated kinase activity and de-regulated expression of the cdk inhibitor p27Kip1 and does not rely on down-regulation of p27Kip1 expression. Analysis of E8 mutants indicate that the hydrophilic 'tail' of the molecule (residues 31-42) is required for cell transformation, as assessed by anchorage-independent growth, while a form of E8 with expression restricted to the Endoplasmic Reticulum/cis-Golgi membranes by addition of a 'KDEL' retention signal revealed that the sub-cellular localization is an important determinant of E8 biological activity.
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PMID:BPV-4 E8 transforms NIH3T3 cells, up-regulates cyclin A and cyclin A-associated kinase activity and de-regulates expression of the cdk inhibitor p27Kip1. 969 May 11

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