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)

Using cell-free extracts made from Xenopus eggs, we show that cdk2-cyclin E and A kinases play an important role in negatively regulating DNA replication. Specifically, we demonstrate that the cdk2 kinase concentration surrounding chromatin in extracts increases 200-fold once the chromatin is assembled into nuclei. Further, we find that if the cdk2-cyclin E or A concentration in egg cytosol is increased 16-fold before the addition of sperm chromatin, the chromatin fails to initiate DNA replication once assembled into nuclei. This demonstrates that cdk2-cyclin E or A can negatively regulate DNA replication. With respect to how this negative regulation occurs, we show that high levels of cdk2-cyclin E do not block the association of the protein complex ORC with sperm chromatin but do prevent association of MCM3, a protein essential for replication. Importantly, we find that MCM3 that is prebound to chromatin does not dissociate when cdk2-cyclin E levels are increased. Taken together our results strongly suggest that during the embryonic cell cycle, the low concentrations of cdk2-cyclin E present in the cytosol after mitosis and before nuclear formation allow proteins essential for potentiating DNA replication to bind to chromatin, and that the high concentration of cdk2-cyclin E within nuclei prevents MCM from reassociating with chromatin after replication. This situation could serve, in part, to limit DNA replication to a single round per cell cycle.
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PMID:A role for Cdk2 kinase in negatively regulating DNA replication during S phase of the cell cycle. 910 46

Time-dependent ladder-type DNA fragmentation and morphological alterations consistent with apoptosis were observed among A253 human head and neck squamous cell carcinoma (HNSCC) cells in nude mice from 15 to 18 days after transplantation, without any drug treatment. No evidence of ladder-type DNA fragmentation was detected in A253 cells in vitro or in normal nude mouse tissues (skin and muscle). Our aim was to explore molecular factors associated with such spontaneous apoptosis. Bcl-2 protein expression decreased, while bax protein expression increased from day 9 after transplantation. Moreover, altered expression of bcl-2 and bax was accompanied by the increased proteolytic cleavage of poly(ADP-ribose) polymerase (PARP). Time-dependent dephosphorylation of Rb, followed by proteolytic cleavage, was also observed from day 9 after transplantation. The data indicate that the caspase-3 activation and cleavage of Rb protein may represent important steps in the regulation pathway of bax-mediated spontaneous apoptosis. Interestingly, the time-dependent activation of spontaneous apoptosis was almost simultaneous with the induction of differentiation and increased expression of several differentiation-associated regulatory proteins. An increased expression of cyclin D1 and cyclin-dependent kinase-5 (cdk5) was observed from day 9 after transplantation, whereas only slight alteration of cdk4 expression was found. The time-dependent activation of cyclin D1 and cdk5 preceded both the induction of ladder-type DNA fragmentation and increased keratin pearl formation. Furthermore, MCM3 was cleaved early in spontaneous apoptosis and differentiation. Our observations suggest the involvement of cyclin D1-cdk5 overexpression and MCM3 cleavage in bax-mediated spontaneous apoptosis and differentiation in A253 xenografts. P53 and WAF1 proteins were not expressed in the xenografts, indicating that the changes in the regulatory proteins during apoptosis and differentiation were not p53 or WAF1 dependent.
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PMID:Involvement of cyclin D1-cdk5 overexpression and MCM3 cleavage in bax-associated spontaneous apoptosis and differentiation in an A253 human head and neck carcinoma xenograft model. 1049 26

The capacity of the cyclin D-dependent kinase to promote G(1) progression through modulation of RB.E2F is well documented. We now demonstrate that the cyclin D1/CDK4 kinase binds to components of the MCM complex. MCM7 and MCM3 were identified as cyclin D1-binding proteins. Catalytically active cyclin D1/CDK4 complexes were incorporated into chromatin-bound protein complexes with the same kinetics as MCM7 and MCM3, where they associated specifically with MCM7. Although the cyclin D1-dependent kinase did not phosphorylate MCM7, active cyclin D1/CDK4, but not cyclin E/CDK2, did catalyze the dissociation of an RB.MCM7 complex. Finally, expression of an active D1/CDK4 kinase but not cyclin E/CDK2 promoted the removal of RB from chromatin-bound protein complexes. Our data suggest that D1/CDK4 complexes play a direct role in altering an inhibitory RB.MCM7 complex possibly allowing for setting of the origin in preparation for DNA replication.
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PMID:The cyclin D1-dependent kinase associates with the pre-replication complex and modulates RB.MCM7 binding. 1251 73

It was shown previously [Riedinger, H. J., van Betteraey-Nikoleit, M & Probst, H. (2002) Eur. J. Biochem.269, 2383-2393] that initiation of in vivo SV40 DNA replication is reversibly suppressed by hypoxia in a state where viral minichromosomes exhibit a nearly complete set of replication proteins. Reoxygenation triggers fast completion and post-translational modifications. Trying to reveal such fast changes of chromatin-bound replication proteins in the much more complex replication of the cellular genome itself, we developed a protocol to extend these studies using the human bladder carcinoma cell line T24, which was presynchronized in G1 by starvation. Concomitantly with stimulation of the cells by medium renewal, hypoxia was established. This treatment induced T24 cells to contain a large amount of replicons arrested in the 'hypoxic preinitiation state', ready to initiate replication as soon as normal pO2 was restored. Replicons in other stages of replicative activity were not detectable. Consequently the arrested replicons were rapidly released into synchronous initiation and succeeding elongation. Extraction of T24 nuclei with a Triton X-100 buffer yielded a fraction containing the cellular chromatin, including DNA-bound replication proteins, while unbound proteins were removed. The usefulness of this protocol was tested by the proliferation marker PCNA. We demonstrate here that this protein switches from the remainder cellular protein pool into the Triton-extracted nuclear fraction upon reoxygenation. Employing this protocol, analyses of chromatin-bound MCM2, MCM3, Cdc6 and cdk2 suggests that the 'classical' prereplication complex is already formed during hypoxia.
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PMID:Analyzing changes of chromatin-bound replication proteins occurring in response to and after release from a hypoxic block of replicon initiation in T24 cells. 1451 70

Replication protein A (RPA) is a three subunit single-stranded DNA-binding protein required for DNA replication. In Xenopus, RPA assembles in nuclear foci that form before DNA synthesis, but their significance in the assembly of replication initiation complexes has been questioned. Here we show that the RPA34 regulatory subunit is dephosphorylated at the exit of mitosis and binds to chromatin at detergent-resistant replication foci that co-localize with the catalytic RPA70 subunit, at both the initiation and elongation stages of DNA replication. By contrast, the RPA34 phosphorylated form present at mitosis is not chromatin bound. We further demonstrate that RPA foci assemble on chromatin before initiation of DNA replication at sites functionally defined as initiation replication sites. Association of RPA with these sites does not require nuclear membrane formation, and is sensitive to the S-CDK inhibitor p21. We also provide evidence that RPA34 is present at initiation complexes formed in the absence of MCM3, but which contain MCM4. In such conditions, replication foci can form, and short RNA-primed nascent DNAs of discrete size are synthesized. These data show that in Xenopus, the hypophosphorylated form of RPA34 is a component of the pre-initiation complex.
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PMID:A hypophosphorylated form of RPA34 is a specific component of pre-replication centers. 1545 45

Using real-time RT-PCR and Western blot analysis in bovine kidney epithelial cells, we systematically investigated the effects of butyrate on patterns of gene expression relevant to DNA replication apparatus. The real-time PCR and Western blot data generally confirmed previously reported microarray data. Of the five genes tested by quantitative RT-PCR, CDKN1A (p21(waf1)) was up regulated, CDC2/cdk1, MCM6, ORC1L were down regulated, while ORC3L expression remained unchanged following butyrate treatment. Also consistent with RT-PCR results, Western blot analysis confirmed that butyrate up-regulated cyclin-kinase inhibitor p21(waf1) in a does-dependent manner. In contrast, butyrate treatment had no effect on the expression of ERK 1/2 proteins. Also consistent with mRNA results, ORC1 and MCM3 proteins were down-regulated by butyrate treatment, while ORC2 protein remained unchanged. The present results suggest that ORC1, not ORC2 or ORC3, along with MCM proteins play a critical role in regulating the initiation of DNA replication and cell cycle progression in MDBK cells and are targets of butyrate regulation.
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PMID:Butyrate induced cell cycle arrest in bovine cells through targeting gene expression relevant to DNA replication apparatus. 1978 80

Fertilization relieves the oocyte from a cell cycle arrest, inducing progression towards mitotic cycles. While the signalling pathways involved in oocyte to embryo transition have been widely investigated, how they specifically trigger DNA replication is still unclear. We used sea urchin eggs whose oocytes are arrested in G1 to investigate in vivo the molecular mechanisms regulating initiation of replication after fertilization. Unexpectedly, we found that CDC6, Cdt1 and MCM3, components of the pre-replication complexes (pre-RC) which license origins for replication, were already loaded on female chromatin before fertilization. This is the first demonstration of a cell cycle arrest in metazoan in which chromatin is already licensed for replication. In contrast pre-RC assemble on chromatin post-fertilization as in other organisms. These differences in the timing of pre-RC assembly are accompanied by differences in Cdk2 requirement for DNA replication initiation between female and male chromatin post-fertilization. Finally, we demonstrated that a concomitant inhibition of MAP kinase and ATM/ATR pathways releases the block to DNA synthesis. Our findings provide new insight into the mechanisms contributing to the release of G1 arrest and the control of S-phase entry at fertilization.
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PMID:Replication origins are already licensed in G1 arrested unfertilized sea urchin eggs. 2015 11

Although many chemotherapy drugs activate the intra-S-phase checkpoint pathway to block S-phase progression, not much is known about how and where the intra-S-phase checkpoint regulates origins of replication in human chromosomes. A genomic analysis of replication in human cells in the presence of hydroxyurea (HU) revealed that only the earliest origins fire, but the forks stall within 2 kb and neighboring clusters of dormant origins are activated. The initiation events are located near expressed genes with a preference for transcription start and end sites, and when they are located in intergenic regions they are located near regulatory factor-binding regions (RFBR). The activation of clustered neo-origins by HU suggests that there are many potential replication initiation sites in permissive parts of the genome, most of which are not used in a normal S phase. Consistent with this redundancy, we see multiple sites bound to MCM3 (representative of the helicase) in the region flanking three out of three origins studied in detail. Bypass of the intra-S-phase checkpoint by caffeine activates many new origins in mid- and late-replicating parts of the genome. The intra-S-phase checkpoint suppresses origin firing after the loading of Mcm10, but before the recruitment of Cdc45 and AND-1/CTF4; i.e., after helicase loading but before helicase activation and polymerase loading. Interestingly, Cdc45 recruitment upon checkpoint bypass was accompanied by the restoration of global Cdk2 kinase activity and decrease in both global and origin-bound histone H3 Lys 4 trimethylation (H3K4me3), consistent with the suggestion that both of these factors are important for Cdc45 recruitment.
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PMID:The effect of the intra-S-phase checkpoint on origins of replication in human cells. 2140 56

MCM2-7 proteins form a stable heterohexamer with DNA helicase activity functioning in the DNA replication of eukaryotic cells. The MCM2-7 complex is loaded onto chromatin in a cell cycle-dependent manner. The phosphorylation of MCM2-7 proteins contributes to the formation of the MCM2-7 complex. However, the regulation of specific MCM phosphorylation still needs to be elucidated. In this study, we demonstrate that MCM3 is a substrate of cyclin E/Cdk2 and can be phosphorylated by cyclin E/Cdk2 at Thr-722. We find that the MCM3 T722A mutant binds chromatin much less efficiently when compared with wild type MCM3, suggesting that this phosphorylation site is involved in MCM3 loading onto chromatin. Interestingly, overexpression of MCM3, but not MCM3 T722A mutant, inhibits the S phase entry, whereas it does not affect the exit from mitosis. Knockdown of MCM3 does not affect S phase entry and progression, indicating that a small fraction of MCM3 is sufficient for normal S phase completion. These results suggest that excess accumulation of MCM3 protein onto chromatin may inhibit DNA replication. Other studies indicate that excess of MCM3 up-regulates the phosphorylation of CHK1 Ser-345 and CDK2 Thr-14. These data reveal that the phosphorylation of MCM3 contributes to its function in controlling the S phase checkpoint of cell cycle in addition to the regulation of formation of the MCM2-7 complex.
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PMID:Phosphorylation of MCM3 protein by cyclin E/cyclin-dependent kinase 2 (Cdk2) regulates its function in cell cycle. 2196 52

MCM7 is one of the subunits of the MCM2-7 complex that plays a critical role in DNA replication initiation and cell proliferation of eukaryotic cells. After forming the pre-replication complex (pre-RC) with other components, the MCM2-7 complex is activated by DDK/cyclin-dependent kinase to initiate DNA replication. Each subunit of the MCM2-7 complex functions differently under regulation of various kinases on the specific site, which needs to be investigated in detail. In this study, we demonstrated that MCM7 is a substrate of cyclin E/Cdk2 and can be phosphorylated on Ser-121. We found that the distribution of MCM7-S121A is different from wild-type MCM7 and that the MCM7-S121A mutant is much less efficient to form a pre-RC complex with MCM3/MCM5/cdc45 compared with wild-type MCM7. By using the Tet-On inducible HeLa cell line, we revealed that overexpression of wild-type MCM7 but not MCM7-S121A can block S phase entry, suggesting that an excess of the pre-RC complex may activate the cell cycle checkpoint. Further analysis indicates that the Chk1 pathway is activated in MCM7-overexpressed cells in a p53-dependent manner. We performed experiments with the human normal cell line HL-7702 and also observed that overexpression of MCM7 can cause S phase block through checkpoint activation. In addition, we found that MCM7 could also be phosphorylated by cyclin B/Cdk1 on Ser-121 both in vitro and in vivo. Furthermore, overexpression of MCM7-S121A causes an obvious M phase exit delay, which suggests that phosphorylation of MCM7 on Ser-121 in M phase is very important for a proper mitotic exit. These data suggest that the phosphorylation of MCM7 on Ser-121 by cyclin/Cdks is involved in preventing DNA rereplication as well as in regulation of the mitotic exit.
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PMID:Phosphorylation of minichromosome maintenance protein 7 (MCM7) by cyclin/cyclin-dependent kinase affects its function in cell cycle regulation. 2372 Jul 38


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