EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxytocin increases myometrial intracellular free calcium by promotion of calcium entry and release of calcium from intracellular stores. Calcium release from intracellular stores is secondary to an increase in phosphoinositide (PI) turnover and generation of IP3. We have explored the biochemical basis for the coupling of oxytocin (OT) to phospholipase C (PLC). Rat myometrial membranes contain PLC beta, gamma, and delta isoforms as well as the GTP-binding proteins G alpha(q) and G alpha(11). Oxytocin stimulates both GTPase and PLC activity in rat and human myometrial membranes. These data and available structural information suggest that the oxytocin receptor couples to PLC through a GTP-binding protein. In support of this hypothesis, an antibody generated against the specific C-terminal region of G alpha(q) and G alpha(11) inhibits both the oxytocin-stimulated GTPase and PLC activities. This inhibition is reversed by neutralization of the antibody with the antigenic peptide. The data indicate that the oxytocin receptor couples to PLC, presumably of the beta subclass, via interaction with proteins of the G alpha(q/11) subclass. In the nonpregnant, estrogen-primed rat, the stimulation of PI turnover by oxytocin is inhibited by the hormone relaxin and by pertussis toxin. The effects of both of these agents are mediated by the action of cAMP-dependent protein kinase. In plasma membranes, GTP-stimulated PLC activity can also be inhibited by treatment with protein kinase A. These data suggest that cAMP-dependent phosphorylation at a step involving GTP-binding protein/PLC coupling can exert a negative effect on the stimulation of IP3 formation by oxytocin and thereby affect contraction/relaxation in the myometrium.
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PMID:Mechanisms regulating oxytocin receptor coupling to phospholipase C in rat and human myometrium. 871 99

The Raf-1 serine/threonine kinase is a key component of the MAP kinase cascade, regulating both proliferation and commitment to cell fate. Raf activation is stimulated following its translocation to the plasma membrane, a process that ordinarily requires interaction with the membrane-localized GTPase, Ras-GTP. To investigate the mechanisms underlying Raf activation, we have developed a coumermycin-induced chemical dimerization method. We find that dimerization is by itself sufficient, in the absence of any membrane components, both to activate a modified Raf protein and to stimulate the MAP kinase cascade appropriately. As Ras-GTP-induced membrane localization increases the effective intracellular Raf concentration, our results indicate that homotypic oligomerization may ordinarily act to promote Raf activation in vivo.
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PMID:Activation of the Raf-1 kinase cascade by coumermycin-induced dimerization. 877 75

The GTPase RhoA has been implicated in various cellular activities, including the formation of stress fibers, motility, and cytokinesis. We recently reported on a p150 serine/threonine kinase (termed ROK alpha) binding RhoA only in its active GTP-bound state and on its cDNA; introduction of RhoA into HeLa cells resulted in translocation of the cytoplasmic kinase to plasma membranes, consistent with ROK alpha being a target for RhoA (T. Leung, E. Manser, L. Tan, and L. Lim, J. Biol. Chem. 256:29051-29054, 1995). Reanalysis of the cDNA revealed that ROK alpha contains an additional N-terminal region. We also isolated another cDNA which encoded a protein (ROK beta) with 90% identity to ROK alpha in the kinase domain. Both ROK alpha and ROK beta, which had a molecular mass of 160 kDa, contained a highly conserved cysteine/histidine-rich domain located within a putative pleckstrin homology domain. The kinases bound RhoA, RhoB, and RhoC but not Rac1 and Cdc42. The Rho-binding domain comprises about 30 amino acids. Mutations within this domain caused partial or complete loss of Rho binding. The morphological effects of ROK alpha were investigated by microinjecting HeLa cells with DNA constructs encoding various forms of ROK alpha. Full-length ROK alpha promoted formation of stress fibers and focal adhesion complexes, consistent with its being an effector of RhoA. ROK alpha truncated at the C terminus promoted this formation and also extensive condensation of actin microfilaments and nuclear disruption. The proteins exhibited protein kinase activity which was required for stress fiber formation; the kinase-dead ROK alpha K112A and N-terminally truncated mutants showed no such promotion. The latter mutant instead induced disassembly of stress fibers and focal adhesion complexes, accompanied by cell spreading. These effects were mediated by the C-terminal region containing Rho-binding, cysteine/histidine-rich, and pleckstrin homology domains. Thus, the multidomained ROK alpha appears to be involved in reorganization of the cytoskeleton, with the N and C termini acting as positive and negative regulators, respectively, of the kinase domain whose activity is crucial for formation of stress fibers and focal adhesion complexes.
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PMID:The p160 RhoA-binding kinase ROK alpha is a member of a kinase family and is involved in the reorganization of the cytoskeleton. 881 43

Studies were undertaken to determine the effect of the Ras suppressor Rsu-1 on Ras signal transduction pathways in two different cell backgrounds. An expression vector containing the mouse rsu-1 cDNA under the control of a mouse mammary tumor virus promoter was introduced into NIH 3T3 cells and the pheochromocytoma cell line PC12. Cell lines developed in the NIH 3T3 background expressed p33rsu-1 at approximately twice the normal endogenous level. However, PC12 cell clones which expressed p33rsu-1 at an increased level in a regulatable fashion in response to dexamethasone were isolated. Analysis of proteins involved in regulation of Ras and responsive to Ras signal transduction revealed similar changes in the two cell backgrounds in the presence of elevated p33rsu-1. There was an increase in the level of SOS, the guanine nucleotide exchange factor, and an increase in the percentage of GTP-bound Ras. In addition, there was an increase in the amount of p120 Ras-specific GTPase-activating protein (GAP) and GAP-associated p190. However, a decrease in Ras GTPase-activating activity was detected in lysates of the Rsu-1 transfectants, and immunoprecipitated p120 GAP from the Rsu-1 transfectants showed less Ras GTPase-activating activity than GAP from control cells. Activation of Erk-2 kinase by growth factor and tetradecanyol phorbol acetate was greater in the Rsu-1 transfectants than in control cells. However, c-Jun amino-terminal kinase activity (Jun kinase) was not activatable by epidermal growth factor in Rsu-1 PC12 cell transfectants, in contrast to the PC12 vector control cell line. Transient expression of p33rsu-1 in Cos1 cells following cotransfection with either hemagglutinin-tagged Jun kinase or hemagglutinin-tagged Erk-2 revealed that Rsu-1 expression inhibited constitutive Jun kinase activity while enhancing Erk-2 activity. Detection of in vitro binding of Rsu-1 to Raf-1 suggested that in Rsu-1 transfectants, increased activation of the Raf-1 pathway occurred at the expense of activation of signal transduction leading to Jun kinase. These results indicate that inhibition of Jun kinase activation was sufficient to inhibit Ras transformation even in the presence of activated Erk-2.
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PMID:Increased expression of the Ras suppressor Rsu-1 enhances Erk-2 activation and inhibits Jun kinase activation. 881 60

We used differential display of mRNA, a method based on reverse transcriptase-PCR, to identify genes whose expression increases in response to acoustic trauma in the chick basilar papilla. Identifying these genes would provide insight into processes involved in repair of the damaged epithelium or in hair cell regeneration. We compared mRNA from the basilar papilla of normal chicks, from chicks exposed to an octave band noise (center frequency: 1.5 kHz) presented at 118 dB for 6 h, and from chicks exposed to noise and allowed to recover for 2 days. Thus far, we have identified 70 bands that appear to be differentially displayed on DNA sequencing gels; approximately 40 of these bands have been subcloned and sequenced. DNA sequences were compared with sequences in the GenBank database to identify genes with significant (70-85%) sequence identity to known genes. Chick cDNAs identified included: the parathyroid hormone-related protein, an immediate early gene; the delta-subunit of the neuronal-specific Ca2+/calmodulin-regulated protein kinase II; and the GTP-binding protein CDC42, a member of the ras superfamily of G proteins. A fourth cDNA had 84% sequence identity to an uncharacterized human cDNA (expressed sequence tag), indicating that this is a novel gene. Slot-blot hybridization analysis of these cDNAs probed with labeled DNA generated from mRNA from each experimental group indicated higher levels of mRNA for each of these four genes after noise exposure. These results indicate the potential involvement of both Ca2+/calmodulin-mediated signaling and GTPase cascades in the response to noise damage and during hair cell regeneration in the chick basilar papilla.
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PMID:Identification of genes expressed after noise exposure in the chick basilar papilla. 881 3

PKN is a newly discovered protein kinase that has been shown to mediate GTPase Rho dependent intracellular signalling. We show in this report that the mouse PKN gene is situated at the mouse EP1 prostanoid receptor gene locus and that the two genes are overlapping in a tail-to-tail manner. An "exon trap" strategy was used to identify the overlap phenomenon. By using RT-PCR and 3' RACE we have identified two major PKN transcripts that are produced by alternative polyadenylation. The 3' end of the short PKN transcript overlaps the 3' untranslated region of the EP1 gene with approximately 280 bp, while the long PKN transcript overlaps the whole EP1 gene. Remarkably, none of the three transcripts originating from this locus display the consensus AAUAAA polyadenylation signal. The last seven exons of the PKN gene, corresponding to the last third of the PKN cDNA, have been recognised in 7.2 kb of continuous genomic sequence that we have collected from the EP1/PKN genetic locus. The 3' part of the PKN gene is highly fragmented and its intron/exon organisation is reminiscent of that of the Drosophila protein kinase C gene. The possibility of a natural antisense regulation of these genes is discussed.
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PMID:The mouse genes for the EP1 prostanoid receptor and the PKN protein kinase overlap. 885 5

Although the Ras-related protein TC21/R-Ras2 has only 55% amino acid identity with Ras proteins, mutated forms of TC21 exhibit the same potent transforming activity as constitutively activated forms of Ras. Therefore, like Ras, TC21 may activate signaling pathways that control normal cell growth and differentiation. To address this possibility, we determined if regulators and effectors of Ras are also important for controlling TC21 activity. First, we determined that Ras guanine nucleotide exchange factors (SOS1 and RasGRF/CDC25) synergistically enhanced wild-type TC21 activity in vivo and that Ras GTPase-activating proteins (GAPs; p120-GAP and NF1-GAP) stimulated wild-type TC21 GTP hydrolysis in vitro. Thus, extracellular signals that activate Ras via SOS1 activation may cause coordinate activation of Ras and TC21. Second, we determined if Raf kinases were effectors for TC21 transformation. Unexpectedly, yeast two-hybrid binding analyses showed that although both Ras and TC21 could interact with the isolated Ras-binding domain of Raf-1, only Ras interacted with full-length Raf-1, A-Raf, or B-Raf. Consistent with this observation, we found that Ras- but not TC21-transformed NIH 3T3 cells possessed constitutively elevated Raf-1 and B-Raf kinase activity. Thus, Raf kinases are effectors for Ras, but not TC21, signaling and transformation. We conclude that common upstream signals cause activation of Ras and TC21, but activated TC21 controls cell growth via distinct Raf-independent downstream signaling pathways.
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PMID:TC21 causes transformation by Raf-independent signaling pathways. 888 43

Serotonin (5-HT) is a potent mitogen in many cells types, an action which is frequently mediated through pertussis toxin-sensitive G proteins. In the current study, we used pharmacological inhibitors and dominant negative signaling constructs to delineate elements which participate in the activation of MAPK, a growth-associated mitogen-activated protein kinase, by human G protein-coupled 5-HT1A receptor transfected into CHO-K1 cells in a stable manner. The activation pathway does not directly involve phorbol ester-sensitive protein kinase C types, but does require (i) pertussis toxin-sensitive G protein beta gamma-subunits, (ii) a staurosporine- and genistein-sensitive protein kinase, (iii) phosphoinositide-3'-kinase activity, (iv) activation of Sos in a multimolecular complex that contains p46Shc, and p52Shc, and Grb2, (v) the GTPase p21Ras, and (vi) the protein kinase p74Raf-1. These data demonstrate that the 5-HT1A receptor mediates MAPK activity by convergence upon a common activation pathway that is shared with receptor tyrosine kinases.
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PMID:Ras-dependent activation of fibroblast mitogen-activated protein kinase by 5-HT1A receptor via a G protein beta gamma-subunit-initiated pathway. 890 12

The cell cycle of budding yeast is controlled by a single cyclin-dependent protein kinase (Cdc28/Cdk1) which successively associates with the stage-specific activators Cln1-3 (G1 phase), Clb5,6 (S phase), Clb3,4 (S/G2 phase) and Clb1,2 (mitosis). The temporal pattern of these Cdk1/cyclin activities imposes a strict order of DNA replication events during the cycle: formation of a pre-replication complex at late M phase, initiation of replication at the G1/s transition, support of replication during S phase, and the prevention of re-replication at G2. A key component involved in S phase initiation is the Cdc6 protein, a transiently expressed DNA-independent ATP/GTPase interacting at late mitosis with an origin-recognizing complex.
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PMID:Cell cycle control and initiation of DNA replication in Saccharomyces cerevisiae. 892 82

In B cells, processing of antigens in the context of MHC class II molecules is initiated by the binding of antigen to the B cell antigen receptor (BCR). BCR-mediated processing is highly efficient, as a consequence of the BCR's linked roles of delivering antigen to the class II peptide-loading compartment and of signaling for increased antigen-processing activity. Evidence is emerging that receptor signaling regulates intracellular transport through the activities of kinases. These in turn have been implicated in the regulation of small mol. wt GTPases which govern membrane transport. Therefore, we investigated the changes in the phosphoprotein and GTPase profiles associated with the class II peptide-loading compartment following BCR cross-linking. We first show that protein kinase inhibitors, known to block BCR signal transduction, inhibit BCR-enhanced antigen processing, demonstrating the critical dependence of enhanced processing on the signaling activity of the BCR. Consistent with this observation, the phosphoprotein profile of the class II peptide-loading compartment underwent rapid and transient changes following BCR cross-linking. We also observed a marked increase in the low mol. wt GTPases associated with the class II peptide-loading compartment within 5 min of BCR cross-linking. The observed changes in both the phosphoprotein and GTPase profiles associated with the peptide-loading compartment were blocked by kinase inhibitors and were not accompanied by overall gross changes in the protein composition of the subcellular compartments. Thus, signal cascades initiated by BCR cross-linking at the plasma membrane are translated into changes in specific subsets of regulatory proteins associated with the peptide-loading compartment.
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PMID:B cell antigen receptor signaling links biochemical changes in the class II peptide-loading compartment to enhanced processing. 898 71

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