Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.22 (cdc2)
 8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phosphorylation of rat non-muscle caldesmon by cdc2 kinase causes reduction in most of caldesmon's properties, including caldesmon's binding to actin, myosin, and calmodulin, as well as its inhibition of actomyosin ATPase. We have generated and characterized the COOH terminus of caldesmon mutants lacking mitosis-specific phosphorylation sites, because the COOH-terminal half of caldesmon contains all 7 putative Ser or Thr sites for cdc2 kinase. Codons for the 7 putative Ser or Thr residues have been mutated to Ala, and resultant mutants were bacterially expressed. Analyses of the phosphopeptide maps of these mutants have identified 6 sites, including Ser-249, Ser-462, Thr-468, Ser-491, Ser-497, and Ser-527 as the mitosis-specific phosphorylation sites, whereas the phosphorylation of the remaining site, Thr-377, is not detected by this assay method. Actin binding experiments have suggested that 5 sites including Ser-249, Ser-462, Thr-468, Ser-491, and Ser-497 are important for the phosphorylation-dependent reduction in actin binding. Characterization of a mutant lacking all 7 Ser or Thr sites (7-fold mutant) has revealed that 7-fold mutation eliminates all phosphorylation sites by cdc2 kinase. While the in vitro properties of the 7-fold mutant, including actin, myosin, and calmodulin binding and inhibition of actomyosin ATPase, are very similar to those of nonmutated protein, such properties are not affected by the treatment with cdc2 kinase in contrast to nonmutated protein. This mutant should thus be useful to explore the functions of the mitosis-specific phosphorylation of caldesmon.
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PMID:Characterization of the COOH terminus of non-muscle caldesmon mutants lacking mitosis-specific phosphorylation sites. 787 50

Cell cycle is regulated by the activation of complexes of cyclins and cyclin-dependent protein kinases at specific points. Quiescent cells lack both cyclins and cyclin-dependent kinases but their expression is induced after proliferative activation. Cyclin A/cdk2 complexes are involved in the onset of DNA replication whereas cyclin B/cdc2 trigger mitosis. We report here that Ca2+ and calmodulin regulate the expression of cdk2, cdc2, cyclin B and the proliferating cell nuclear antigen (a co-factor of DNA polymerase-delta) in human T lymphocytes. Likewise, the expression of cdk4, cyclin A and DNA polymerase-alpha is dependent of the synergistic effect of both the Ca2+/calmodulin and the protein kinase C pathways. Thus, calmodulin controls DNA synthesis by regulating the levels of cdk2 and proliferating cell nuclear antigen and mitosis entry by modulating the expression of cyclin B and cdc2.
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PMID:Calmodulin regulates the expression of cdks, cyclins and replicative enzymes during proliferative activation of human T lymphocytes. 790 33

Oncoprotein 18 (Op18) is a cytosolic protein that was initially identified due to its up-regulated expression in acute leukemia and its complex pattern of phosphorylation in response to diverse extracellular signals. We have previously identified in vivo phosphorylation sites and some of the protein kinase systems involved. Two distinct proline-directed kinase families phosphorylate Ser25 and Ser38 of Op18 with overlapping but distinct site preference. These two kinase families, mitogen-activated protein (MAP) kinases and cyclin-dependent cdc2 kinases, are involved in receptor-regulated and cell-cycle-regulated phosphorylation events, respectively. During analysis of Op18 phosphorylation in the Jurkat T-cell line, we also found that Ser16 of Op18 is phosphorylated in response to a Ca2+ signal generated by T-cell receptor stimulation or the Ca2+ ionophore ionomycin. As suggested by a previous study, T-cell-receptor-induced phosphorylation events may be mediated by the Ca2+/CaM-dependent protein kinase type Gr (CaM kinase-Gr). The present study shows that activation of this protein kinase correlates with phosphorylation of Ser16 of Op18, and in vitro experiments reveal efficient and selective phosphorylation of this residue. The CaM kinase-Gr is only expressed in certain lymphoid cell lines, and the present study shows that ionomycin-induced phosphorylation of Op18 Ser16 is restricted to cells expressing this protein kinase. Finally, CaM kinase-Gr-dependent in vitro phosphorylation of a crude cellular extract reveals a striking preference of this protein kinase for Op18 compared to other cellular substrates. In conclusion, the results suggest that Ser16 of Op18 is a major cytosolic target for activated CaM kinase-Gr.
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PMID:Serine 16 of oncoprotein 18 is a major cytosolic target for the Ca2+/calmodulin-dependent kinase-Gr. 792 72

To investigate the role of intermediate filament (IF) protein phosphorylation by cdc2 kinase during mitosis, we developed a monoclonal antibody 4A4 recognizing Ser55-phosphorylated vimentin. Western blotting indicated that this antibody reacted with vimentin phosphorylated by cdc2 kinase but not with non-phosphorylated vimentin or with vimentin phosphorylated by other kinases such as cAMP-dependent protein kinase, protein kinase C, or Ca(2+)-calmodulin-dependent protein kinase II. Immunofluorescence and immunoelectron microscopy showed that vimentin Ser55 residues distributed in the entire cytoplasmic vimentin filament system are phosphorylated when the cells enter mitosis and dephosphorylated in cytokinesis. All cell lines examined showed a similar appearance of immunoreactivity with antibody 4A4. Fractionation of mitotic cell extracts on Mono-Q Sepharose revealed a single peak of vimentin Ser55 kinase activity, and the anti-p34cdc2 antibody reacted with the 34 kDa band in the kinase containing fractions. Vimentin Ser55 kinase activities were nil in the interphase cell extract. Immunofluorescent evidence using antibody 4A4 and biochemical analysis using vimentin Ser55 peptide showed that the degree of disassembly of vimentin filament of various cell types at early mitotic phase correlated well with the amount of mitotically activated cdc2 kinase.
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PMID:Visualization and function of vimentin phosphorylation by cdc2 kinase during mitosis. 798 50

Microtubule-associated protein tau from Alzheimer brain has been shown to be phosphorylated at several ser/thr-pro and ser/thr-X sites (Hasegawa, M. et al., J. Biol. Chem. 267, 17047-17054, 1992). Several proline-dependent protein kinases (PDPKs) (MAP kinase, cdc2 kinase, glycogen synthase kinase-3, tubulin-activated protein kinase, and 40 kDa neurofilament kinase) are implicated in the phosphorylation of the ser-thr-pro sites. The identity of the kinase(s) that phosphorylate the ser/thr-X sites are unknown. To identify the latter kinase(s) we have compared the phosphorylation of bovine tau by several brain protein kinases. Stoichiometric phosphorylation of tau was achieved by casein kinase-1, calmodulin-dependent protein kinase II, Gr kinase, protein kinase C and cyclic AMP-dependent protein kinase, but not with casein kinase-2 or phosphorylase kinase. Casein kinase-1 and calmodulin-dependent protein kinase II were the best tau kinases, with greater than 4 mol and 3 mol 32P incorporated, respectively, into each mol of tau. With the sequential addition of these two kinases, 32P incorporation approached 6 mol. Peptide mapping revealed that the different kinases largely phosphorylate different sites on tau. After phosphorylation by casein kinase-1, calmodulin-dependent protein kinase II, Gr kinase, cyclic AMP-dependent protein kinase and casein kinase-2, the mobility of tau isoforms as detected by SDS-PAGE was decreased. Protein kinase C phosphorylation did not produce such a mobility shift. Our results suggest that one or more of the kinases studied here may participate in the hyperphosphorylation of tau in Alzheimer disease.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of the phosphorylation of microtubule-associated protein tau by non-proline dependent protein kinases. 803 84

In serum-deprived human fibroblasts IMR-90 and WI-38 cells, the addition of fetal calf serum or basic fibroblast growth factor stimulates DNA synthesis in an extracellular Ca(2+)-dependent manner; the effect of serum on [3H]thymidine incorporation into DNA is 4-16-fold greater at 2.0 mM CaCl2 as compared with that at 0.03 mM CaCl2. By contrast, in SV40 virus-transformed WI-38 (SV-WI-38) cells DNA synthesis is essentially independent of the extracellular calcium concentration ([Ca]out) and serum growth factors. To explore the role of Ca2+ in mitogenic signal transduction through G1 to S phase cell cycle progression, we studied and compared the effect of [Ca]out on phosphorylation of RB protein, the product of a tumor suppressor retinoblastoma gene. In IMR-90 and WI-38 cells, serum or basic fibroblast growth factor induces an increase in the amount of hyperphosphorylated forms of RB protein in a manner strictly dependent on [Ca]out. In sharp contrast, in SV-WI-38 cells, the extent of RB phosphorylation is little affected by [Ca]out or the presence or absence of serum growth factors. In addition, potent calmodulin antagonists W-7 and calmidazolium, but not an inactive analogue W-12 or W-5, strongly inhibit serum-induced increases in DNA synthesis and RB phosphorylation in IMR-90 and WI-38 cells, whereas in SV-WI-38 cells, the inhibitory effect is much more limited. Under the same treatment conditions, we measured histone H1 kinase activity associated with anti-p34cdc2 immunoprecipitate and found that the serum-induced increase in p34cdc2 kinase activity is strongly dependent on [Ca]out and is potently inhibited by the active calmodulin antagonists in IMR-90 and WI-38 cells, but not in SV-WI-38 cells. In IMR-90 cells that have been incubated with serum in 0.03 mM [Ca]out for 24 h, restoration of [Ca]out to 2.0 mM results in initiation of DNA synthesis after 13 h and concomitant increases in RB phosphorylation and p34cdc2 histone H1 kinase activity. These results suggest that in human fibroblasts, Ca2+/calmodulin regulates the signaling cascade leading to cdc2 kinase activation, RB protein phosphorylation, and DNA synthesis and that this Ca(2+)-dependent regulation is abrogated in SV40-transformed cells.
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PMID:Ca(2+)-dependent stimulation of retinoblastoma gene product phosphorylation and p34cdc2 kinase activation in serum-stimulated human fibroblasts. 841 21

The antioxidant alpha-tocopherol and the weaker antioxidant and prooxidant chemopreventative, beta-carotene have been shown to inhibit tumor cell growth in vivo and in vitro. In some epidemiologic studies their serum levels were demonstrated to be inversely related to the incidence of malignant tumor. We hypothesized two basic pathways triggered by antioxidants and prooxidants, which resulted in the control of tumor cell growth. These included changes in phosphorylation and ultimately transcription. Specifically, the prooxidant beta-carotene treatment produced an oxidative stress resulting in the selective induction of heat shock proteins (hsps). These proteins and other proteins that were possibly oxidized were associated with the increased expression of cyclins (A and D) and increased cdc2 kinase expression. An increase in expression of phosphoproteins, such as p53 (tumor suppressor form) was also discerned. The level of expression for the transcription factor c-fos was reduced. Growth factors that contribute to tumor cell growth were also reduced. Increased DNA fragmentation, depression of proliferation and intracellular calcium levels, the accumulation of tumor cells in G0-->G1, and morphologic changes, were consistent with programmed cell death. Antioxidants such as alpha-tocopherol bound to membrane-associated proteins could inhibit the development of peroxidation products (hydroxyl radicals (.OH)), which attack proteins and modify their function and promote their degradation. Some kinases such as, cdc2 may be increased in activity, which would explain the observed increased expression of tumor suppressor p53, the accumulation of the tumor cells in G1 of the cell cycle and the inhibition of tumor cell proliferation. A reduction in oxidant radicals could also reduce transcription factor products, such as c-myb. Indirectly this result may occur through changes in nuclear translocation (signaling) NF-AT or the Rel-related family of transcription factors, including NF-kB (p50 or p65) or inhibition of immunophilin-calmodulin activity. Although the data remains fragmentary there are common points for control for tumor cell growth resulting from the effects of alpha-tocopherol or beta-carotene treatment. These changes involve phosphorylation and protein expression. Ultimately there is a reduction of important transcription factor protein products, a reduction in response to growth factors, and suppression of cell proliferation, resulting in increased control of the cell cycle.
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PMID:Molecular and biochemical reprogramming of oncogenesis through the activity of prooxidants and antioxidants. 851 52

We previously purified a nuclear localization signal binding protein, NBP60, from rat liver (1993, J. Biochem. 113, 308-313). In this study, the subcellular localization of NBP60 was examined using anti-NBP60. Most NBP60 was found to be localized in the nuclear envelope fraction of rat liver obtained on cell fractionation followed by immunoblotting. Staining of the nuclei of cultured cells by the antibody was observed on immunofluorescence microscopy. NBP60 was widely detected in rat nuclear fractions prepared from other tissues and also in nuclei of cultured cells derived from other species. It was shown by immunoelectron microscopy that most NBP60 is present in the nuclear envelope and at least some of that is present on nuclear pore complexes. Although NBP60 was localized in the nuclear envelope in interphase cells, it diffused into the cytoplasm in the mitotic phase. The purified NBP60 was highly phosphorylated by a cdc2 mitotic kinase, whereas nuclear pore proteins p144, p62, p60, and p54 were not phosphorylated by the kinase directly. NBP60 was also phosphorylated by protein kinase A, calmodulin-dependent protein kinase II, and casein kinase II. The phosphorylation of NBP60 by cdc2 kinase and/or the other kinases may be related to the change in the protein's location during the mitotic phase.
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PMID:Subcellular distribution and phosphorylation of the nuclear localization signal binding protein, NBP60. 859 27

Spc110p (Nuf1p) is an essential component of the yeast microtubule organizing center, or spindle pole body (SPB). Asynchronous wild-type cultures contain two electrophoretically distinct isoforms of Spc110p as detected by Western blot analysis, suggesting that Spc110p is modified in vivo. Both isoforms incorporate 32Pi in vivo, suggesting that Spc110p is post-translationally modified by phosphorylation. The slower-migrating 120-kD Spc110p isoform after incubation is converted to the faster-migrating 112-kD isoform after incubation with protein phosphatase PP2A, and specific PP2A inhibitors block this conversion. Thus, additional phosphorylation of Spc110p at serine and/or threonine residues gives rise to the slower-migrating 120-kD isoform. The 120-kD isoform predominates in cells arrested in mitosis by the addition of nocodazole. However, the 120-kD isoform is not detectable in cells grown to stationary phase (G0) or in cells arrested in G1 by the addition of alpha-factor. Temperature-sensitive cell division cycle (cdc) mutations demonstrate that the presence of the 120-kD isoform correlates with mitotic spindle formation but not with SPB duplication. In a synchronous wild-type population, the additional serine/threonine phosphorylation that gives rise to the 120-kD isoform appears as cells are forming the mitotic spindle and diminishes as cells enter anaphase. None of several sequences similar to the consensus for phosphorylation by the Cdc28p (cdc2p34) kinase is important for these mitosis-specific phosphorylations or for function. Carboxy-terminal Spc110p truncations lacking the calmodulin binding site can support growth and are also phosphorylated in a cell cycle-specific manner. Further truncation of the Spc110p carboxy terminus results in mutant proteins that are unable to support growth and now migrate as single species. Collectively, these results provide the first evidence of a structural component of the SPB that is phosphorylated during spindle formation and dephosphorylated as cells enter anaphase.
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PMID:The 110-kD spindle pole body component of Saccharomyces cerevisiae is a phosphoprotein that is modified in a cell cycle-dependent manner. 860 21

Shionogi Carcinoma 115 (SC 115) cells are a cloned cell line derived from androgen-dependent mouse mammary tumor. They can grow in serum-free culture if a physiological level of androgen is present in the medium, but can not proliferate in culture without testosterone. In the present study, the mechanism of cell death in SC 115 cells after androgen withdrawal was examined. Based upon the temporal sequence of DNA fragmentation, morphologic changes and loss of cell viability, androgen withdrawal induces programmed cell death (apoptosis) of SC 115 cells in serum-free culture. Northern blot analysis was used to identify a series of genes whose expression per cell is enhanced during the recruitment of cells from a nonproliferative (i.e. G0) state into G1 (i.e.,cyclins D1 and C), from G1 into the S phase of the cell cycle (i.e., cdk2), and during the programmed cell death pathway (i.e. testosterone repressed prostatic message-2 (TRPM-2), transforming growth factor-beta1 (TGF-beta1) and glucose regulated 78 kilodalton protein (GRP-78). Expression of TRPM-2, TGF-beta1, GRP-78, and calmodulin genes increases, but that of cyclins C and D1, and cdk2 genes decreases during programmed cell death of SC 115 cells. These results demonstrate that androgen-dependent SC 115 cells undergo programmed cell death induced by androgen withdrawal, and that this death does not require proliferation or progression into G1 of the proliferative cell cycle. SC 115 cells should be a good model for investigating programmed death of hormone-dependent cancer.
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PMID:Induction of programmed death/apoptosis androgen-dependent mouse mammary tumor cell line (Shionogi Carcinoma 115) by androgen withdrawal. 863 4


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