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)

Interactions among growth factors, cells, and extracellular matrix regulate proliferation during normal development and in pathologies such as atherosclerosis. SPARC (secreted protein, acidic, and rich in cysteine) is a matrix-associated glycoprotein that modulates the adhesion and proliferation of vascular cells. In this study, we demonstrate that SPARC inhibits human arterial smooth muscle cell proliferation stimulated by platelet-derived growth factor or by adhesion to monomeric type I collagen. Binding studies with SPARC and SPARC peptides indicate specific and saturable interaction with smooth muscle cells that involves the C-terminal Ca2+-binding region of the protein. We also report that SPARC arrests monomeric collagen-supported smooth muscle cell proliferation in the late G1-phase of the cell cycle in the absence of an effect on cell shape or on levels of cyclin-dependent kinase inhibitors. Cyclin-dependent kinase-2 activity, p107 and cyclin A levels, and retinoblastoma protein phosphorylation are markedly reduced in response to the addition of exogenous SPARC and/or peptides derived from specific domains of SPARC. Thus, SPARC, previously characterized as an inhibitor of platelet-derived growth factor binding to its receptor, also antagonizes smooth muscle cell proliferation mediated by monomeric collagen at the level of cyclin-dependent kinase-2 activity.
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PMID:Inhibition of PDGF-stimulated and matrix-mediated proliferation of human vascular smooth muscle cells by SPARC is independent of changes in cell shape or cyclin-dependent kinase inhibitors. 1183 1

Roscovitine is widely used for inhibition of cdk5, a cyclin-dependent kinase expressed predominantly in the brain. A novel function of roscovitine, i.e. an effect on Ca(2+) channels and transmitter release in central neurons, was studied by whole-cell voltage-clamp recordings and time-lapse fluorescence imaging techniques. Extracellular application of roscovitine markedly enhanced the tail calcium current following repolarization from depolarized voltages. This effect was rapid, reversible and dose dependent. Roscovitine dramatically slowed the deactivation kinetics of calcium channels. The deactivation time constant was increased 3- to 6-fold, suggesting that roscovitine could prolong the channel open state and increase the calcium influx. The potentiation of tail calcium currents caused by roscovitine and by the L-channel activator Bay K 8644 was not occluded but additive. Roscovitine-induced potentiation of tail calcium currents was significantly blocked by the P/Q-channel blocker CgTx-MVIIC, indicating that the major target of roscovitine is the P/Q-type calcium channel. In mutant mice with targeted deletion of p35, a neuronal specific activator of cdk5, roscovitine regulated calcium currents in a manner similar to that observed in wild-type mice. Moreover, intracellular perfusion of roscovitine failed to modulate calcium currents. These results suggest that roscovitine acts on extracellular site(s) of calcium channels via a cdk5-independent mechanism. Roscovitine potentiated glutamate release at presynaptic terminals of cultured hippocampal neurons detected with the vesicle trafficking dye FM1-43, consistent with the positive effect of roscovitine on the P/Q-type calcium channel, the major mediator of action potential-evoked transmitter release in the mammalian CNS.
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PMID:Roscovitine: a novel regulator of P/Q-type calcium channels and transmitter release in central neurons. 1198 66

The eta isoform of protein kinase C (PKC eta) is classified into the Ca2+-independent novel PKC subfamily and assigned to human chromosome 14 (14q22-23) and mouse chromosome 12 (12C3-D2). It is highly expressed in epithelial tissues especially in squamous epithelia. PKC eta is unique in that it is specifically activated by cholesterol sulfate and sulfatide, sulfated metabolites of cholesterol and cerebroside, respectively. PKC eta overexpression induces G1 arrest and differentiation in keratinocytes. PKC eta-induced differentiation is accompanied by the transcriptional activation of transglutaminase I, a key enzyme in squamous differentiation, and involucrin, a precursor of cornified envelopes. In keratinocytes, PKC eta associates with the cyclin E/cdk2/p21 complex and inhibits the cdk2-kinase activity, leading to G1 arrest. Cholesterol sulfate inhibits the promotional phase of skin carcinogenesis. Moreover, PKC eta-knockout mice show a much higher sensitivity to carcinogenesis, suggesting that PKC eta is negatively involved in tumor promotion through stimulation of keratinocyte differentiation. In addition to epithelial cells, recent studies revealed that PKC eta acts as a key regulator in early B-cell development. Although the functions of PKC eta in other cell types are not yet fully elucidated, available evidence indicates that this particular isoform plays crucial roles in the signaling of cell differentiation in a cell-type-specific manner.
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PMID:Protein kinase C eta (PKC eta): its involvement in keratinocyte differentiation. 1247 86

PHO85 is a versatile gene in Saccharomyces cerevisiae, which is involved in metabolism of inorganic phosphate and usage of carbon source, accumulation of glycogen, regulation of protein stability and cell cycle control. The viability of wild type budding yeast strain YPH499 and its derivative pho85Delta mutant, pho80 mutant, and pap1(pcl-7)Delta mutant in different cations were investigated and their tolerance to the cations(LC(50)) was measured. The results showed that the deletion of PHO85 or PHO80 gene both increased sensibility of Sacchromyces cerevisiae to ions K(+), Mg(2+), Zn(2+), Ca(2+) and Mn(2+), while the deletion of pap1(pcl-7) gene did not lead to such phenotype. The difference between the patterns of relative growth curve of the mutants and wild type strain in the above ions also implied that PHO80 was the unique PCLs in complex with PHO85 CDK, that were contributed to K(+) and Mg(2+) ion homeostasis control and there were some other PCLs besides PHO80 that were involved in Zn(2+), Ca(2+) and Mn(2+) tolerance regulation as cyclin of PHO85 CDK. Furthermore, the amount of the total cellular calcium of pho85Delta mutant, pho80Delta mutant and YPH499 indicated that the ability of calcium accumulation of pho85 mutant and pho80Delta mutant was impaired.
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PMID:[Involvement of PHO80 and PHO85 genes in Saccharomyces cerevisiae ion tolerance]. 1251 34

Abundant levels of the hyperactive low molecular weight (LMW) forms of cyclin E contribute to deregulation of Cdk2 in breast tumors, but the mechanism through which they arise is not fully understood. Here, we explored the hypothesis that post-translational processing by a protease generates the LMW forms of cyclin E in breast tumors. In ZR75 tumor cell lysates, calcium-induced cyclin E truncation into peptides corresponding in size with LMW forms of cyclin E in tumor tissues. Calpeptin inhibited calcium-stimulated cyclin E truncation, indicating that cleavage resulted from activity of the calcium-dependent protease, calpain. Consistently, calcium+calpain caused truncation of cyclin E immunoprecipitated from tumor cells and tissues. Calcium also caused truncation of the calpain regulatory subunit in tumor cell lysates, indicating that elevated calpain activity accompanies cyclin E truncation. Increased levels of the calpain small subunit were also observed in breast tumors, and significant amounts of its proteolyzed forms indicated increased calpain activity. While elastase also caused cyclin E truncation, the cleavage pattern was distinct from that generated by calpain, suggesting discrete mechanisms in regulating the formation of LMW cyclin E in breast tumors. Treatment of ZR75 cultures with calcium+A23187 recapitulated the formation of the calcium/calpain-induced LMW forms of cyclin E. Altered calcium homeostasis and/or inability of the endogenous calpain inhibitor to control the activity of high levels of the calpain small subunit may contribute to increased calpain activity in breast tumors, causing abundant levels of LMW cyclin E.
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PMID:Cyclin E in breast tumors is cleaved into its low molecular weight forms by calpain. 1256 70

Maturation of mouse oocytes is accompanied by an increase in sensitivity to inositol 1,4,5-trisphosphate (IP(3))-mediated release of intracellular calcium. To test the hypothesis that the maturation-associated 1.5- to 2.0-fold increase in the mass of the type 1 IP(3) receptor (IP(3)R-1) confers this increase in IP(3) sensitivity, we employed RNA interference to prevent this change in IP(3)R-1 protein level. Microinjection into germinal vesicle (GV)-intact oocytes of dsRNA corresponding to the IP(3)R-1 sequence resulted in a >90% reduction in the amount of maternal IP(3)R-1 mRNA and prevented the maturation-associated increase in the mass of the IP(3)R-1 protein. These injected oocytes matured to metaphase II, and there was no effect on the maturation-associated increases in p34(cdc2)/cyclin B kinase and MAP kinase activities or the global pattern of protein synthesis. IP(3)-induced cortical granule exocytosis was significantly decreased in these eggs when compared with controls previously injected with enhanced green fluorescent protein (EGFP) dsRNA. Following insemination, the IP(3)R-1 dsRNA-injected eggs displayed significantly fewer Ca(2+) transients than controls, and the duration of the first Ca(2+) transient was about half that of controls. These results support the hypothesis that the maturation-associated increase in the mass of IP(3)R-1 confers the increase in IP(3)-sensitivity that is observed following oocyte maturation and is necessary for the proper Ca(2+) oscillatory pattern following insemination.
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PMID:Maturation-associated increase in IP3 receptor type 1: role in conferring increased IP3 sensitivity and Ca2+ oscillatory behavior in mouse eggs. 1259 Dec 38

The Arp2/3 complex greatly accelerates actin polymerization, which is thought to play a major role in cell motility by inducing membrane protrusions including ruffling movements. Membrane ruffles contain a variety of actin-binding proteins, which would modulate Arp2/3-dependent actin polymerization. However, their exact roles in actin polymerization remain to be established. Because caldesmon is present in membrane ruffles, as well as in stress fibers, it may alter Arp2/3-mediated actin polymerization. We have found that caldesmon greatly retards Arp2/3-induced actin polymerization. Kinetic analyses have revealed that caldesmon inhibits the nucleation process, whereas it does not largely reduce elongation. Caldesmon is found to inhibit binding of Arp2/3 to F-actin, which apparently reduces the ability of F-actin as a secondary activator of Arp2/3-mediated nucleation. We also have found that the inhibition of the binding between actin and caldesmon either by Ca(2+)/calmodulin or by phosphorylation with cdc2 kinase reverses the inhibitory effect of caldesmon on Arp2/3-induced actin polymerization. Our results suggest that caldesmon may be a key protein that modulates membrane ruffling and that this may involve changes in caldesmon phosphorylation and/or intracellular calcium concentrations during signal transduction.
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PMID:Caldesmon inhibits Arp2/3-mediated actin nucleation. 1263 66

The objective of this study was to elucidate the role of a [Ca2+]i rise and protein kinase C (PKC) activation on decreases of p34(cdc2) kinase and mitogen-activated protein (MAP) kinase activity during parthenogenetic activation of porcine oocytes. In oocytes treated with 50 microM Ca2+ ionophore, degradations of both p34(cdc2) kinase and MAP kinase activity were observed and half of these oocytes formed pronuclei. However, a supplement of PKC inhibitor, calphostin C, after 50 microM Ca2+ ionophore treatment, was sufficient to inhibit the inactivation of MAP kinase and pronuclear formation in the oocytes. These results showed that PKC played an important role in Ca2+-induced oocyte activation. On the other hand, 10 microM Ca2+ ionophore treatment could not affect the MAP kinase activity but induced a transient decrease of p34(cdc2) kinase activity, which resulted in recovery of p34(cdc2) kinase activity and progression to meiotic metaphase III stage. To investigate the effects of PKC activator on oocytes treated with 10 microM Ca2+ ionophore, matured oocytes were cultured with phorbol 12-myriatate 13-acetate (PMA), after 10 microM Ca2+ ionophore treatment. The additional treatment suppressed the recovery of p34(cdc2) kinase activity and rapidly induced a decrease of MAP kinase activity, and these low activities were maintained until 12-h cultivation. As a result, a significantly higher percentage of these oocytes (67%) had pronuclei at 12-h cultivation. Moreover, PMA treatment without Ca2+ ionophore treatment effectively led to a decrease of MAP kinase activity in a dose-dependent manner but not p34(cdc2) kinase activity in matured porcine oocytes. In conclusion, the parthenogenetic activation of porcine oocytes was mediated by the inactivation of p34(cdc2) kinase via a calcium-dependent pathway and thereafter by the inactivation of MAP kinase via a PKC-dependent pathway.
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PMID:Effect of protein kinase C activator on mitogen-activated protein kinase and p34(cdc2) kinase activity during parthenogenetic activation of porcine oocytes by calcium ionophore. 1289 Jul 33

Mice with a targeted inactivation of both alleles of the cyclin-dependent kinase inhibitor p27(kip1) developed both small and large intestinal adenomas when fed a control AIN-76A diet. A Western-style diet that is high in fat and phosphate and low in calcium and vitamin D was also able to initiate adenoma formation in wild-type mice. The combination of p27(kip1) inactivation and the Western-style diet was additive in terms of tumor incidence, frequency and size, and in reducing the life span of the mice. The genetic and dietary combination also resulted in development of adenocarcinoma. Tumor formation was linked to a disruption in homeostasis of the intestinal mucosa, involving increased cell proliferation and decreased apoptosis. There was also decreased goblet cell differentiation as assessed by alcian blue staining and expression of the Muc2 gene, especially in mice fed the Western-style diet, although this differentiation lineage was still present as indicated by expression and staining for intestinal trefoil factor. The inactivation of p27(kip1) and the consequent disruption of normal colonic cell maturation in the mucosa were associated with modestly elevated c-myc, cdk4, and cyclin D1 expression. These data establish a fundamental role for p27(kip1) in maintenance of intestinal cell homeostasis and in suppressing tumor formation. The data also emphasize the critical role that dietary factors can have in both tumor initiation and progression through interaction with pathways that normally maintain intestinal homeostasis.
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PMID:Targeted inactivation of p27kip1 is sufficient for large and small intestinal tumorigenesis in the mouse, which can be augmented by a Western-style high-risk diet. 1294 25

Calcium is a second messenger that is implicated in the regulation of cell cycle transitions. Calmodulin is a ubiquitous protein that translates intracellular calcium signals and activates several enzymes including calcium/calmodulin-dependent protein kinase II (CaMKII). Pharmacological inhibitors and constitutively active mutants have implicated CaMKII in cell cycle mediation. Specifically, constitutively active CaMKII impedes mitosis. In order to elucidate the molecular mechanisms underlying this phenomenon, the effect of constitutively active CaMKII gene expression on cdc2/cyclin B1 was investigated. As seen in previous studies with S. pombe, constitutively active CaMKII-hindered mitosis. However, this report shows that CaMKII does not cause permanent cell cycle arrest but delays progression into mitosis. Constitutive CaMKII expression also leads to elevations in cyclin B1 expression and cdc2 tyrosine-15 phosphorylation, analogous to observations in cells treated with hydroxyurea. Taken together, these data suggest that constitutive CaMKII may delay mitosis by activating a cell cycle checkpoint.
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PMID:CyclinB1 expression is elevated and mitosis is delayed in HeLa cells expressing autonomous CaMKII. 1449 48

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