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)

Phogrin, a 60/64-kDa integral membrane protein of dense-core granules in neuroendocrine cells, is phosphorylated in a Ca(2+)-sensitive manner in response to secretagogue stimulation of pancreatic beta-cells. Phosphorylation of the phogrin cytosolic domain by beta-cell homogenates was Ca(2+)-independent but stimulated by cAMP. Recombinant protein kinase A (PKA) could phosphorylate phogrin directly. High performance liquid chromatography analysis of tryptic phosphopeptides, combined with site-directed mutagenesis of candidate sites, revealed the presence of two phosphorylation sites at Ser-680 and Thr-699, located in the juxtamembrane region between the transmembrane span and the protein-tyrosine phosphatase homology domain of phogrin. Full-length wild-type phogrin, as well as mutant versions where Ser-680 and Thr-699 had been replaced either by alanines or by aspartic acid residues, were targeted to secretory granules in transfected AtT20 neuroendocrine cells. Stimulation of these cells with a range of secretagogues, including K(+), BaCl(2), and forskolin, demonstrated that the in vivo phosphorylation sites are the same as those identified in vitro. In MIN6 beta-cells, the PKA inhibitor H-89 prevented Ca(2+)-dependent phogrin phosphorylation in response to glucose, suggesting that Ca(2+) exerts its effect on phogrin phosphorylation through regulating the activity of PKA.
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PMID:Secretagogue-dependent phosphorylation of the insulin granule membrane protein phogrin is mediated by cAMP-dependent protein kinase. 1135 72

Xenopus early response 1 (XER1) is a fibroblast growth factor-inducible transcription factor whose developmentally regulated nuclear localization is thought to be important in the control of cell differentation during embryonic development [Luchman et al., Mech. Dev. 80 (1999) 111-114]. Analysis of the XER1 amino acid sequence revealed four regions which contain potential nuclear localization sequences (NLSs). Using mutant XER1 proteins and portions of XER1 fused to green fluorescent protein (GFP) transfected into NIH 3T3 cells, we have determined that only one of these, NLS4, located near the carboxy-terminus of XER1, is necessary and sufficient for targeting exclusively to the nucleus. Of the other three predicted NLS sequences, only NLS1, consisting of the sequence (138)RPRRCK(143) was shown to function as a cryptic, weak NLS. NLS4 contains a core region consisting of the sequence (463)RPIKRQRMD(471) which is similar to the core NLS directing the human c-MYC protein to the nucleus. The core sequence is flanked by a predicted cdc2/protein kinase A phosphorylation motif, however mutation of the serine(472) to alanine or aspartic acid had no detectable effect on accumulation of GFP-XER1 fusion proteins in the nucleus, demonstrating that this putative phosphorylation site plays no role in regulating nuclear transport.
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PMID:Nuclear localization signals in the Xenopus FGF embryonic early response 1 protein. 1147 45

This study was designed to identify the role of a recently identified Ca(2+)/calmodulin-dependent protein kinase (CaMK)-like kinase (CaMKLK) in neuronal apoptosis. For this purpose, we studied proteolytic cleavage of CaMKLK by caspases in vitro and in neuronal NG108 cells. In addition, we have investigated the effect of overexpression of wild type and mutant CaMKLK proteins on staurosporine- and serum deprivation-induced apoptosis of NG108 cells. We found that CaMKLK is a substrate for caspase-3 and -8, both in vitro and in NG108 cells during staurosporine- and serum withdrawal-induced apoptosis. Substitution of an aspartic acid residue at position 62 in an asparagine residue within a putative caspase cleavage site completely blocked cleavage of CaMKLK, strongly indicating that (59)DEND(62) is the caspase recognition site. Overexpression of an Asp(62) --> Asn CaMKLK mutant protected NG108 cells from staurosporine-induced apoptosis to a similar extent as Bcl-x(L). In contrast, overexpression of wild type CaMKLK did not lead to protection. Moreover, microinjection of Asp(62) --> Asn CaMKLK protected NG108 cells from serum deprivation-induced apoptosis, while overexpression of a caspase-generated noncatalytic N-terminal CaMKLK fragment exacerbated apoptosis. Together, our data suggest that cleavage of CaMKLK and generation of the noncatalytic N-terminal domain of CaMKLK facilitate neuronal apoptosis.
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PMID:Caspase-mediated cleavage of the Ca2+/calmodulin-dependent protein kinase-like kinase facilitates neuronal apoptosis. 1147 89

Cyclin E, one of the activators of the cyclin-dependent kinase Cdk2, is expressed near the G1-S phase transition and is thought to be critical for the initiation of DNA replication and other S-phase functions. Accumulation of cyclin E at the G1-S boundary is achieved by periodic transcription coupled with regulated proteolysis linked to autophosphorylation of cyclin E. The proper timing and amplitude of cyclin E expression seem to be important, because elevated levels of cyclin E have been associated with a variety of malignancies and constitutive expression of cyclin E leads to genomic instability. Here we show that turnover of phosphorylated cyclin E depends on an SCF-type protein-ubiquitin ligase that contains the human homologue of yeast Cdc4, which is an F-box protein containing repeated sequences of WD40 (a unit containing about 40 residues with tryptophan (W) and aspartic acid (D) at defined positions). The gene encoding hCdc4 was found to be mutated in a cell line derived from breast cancer that expressed extremely high levels of cyclin E.
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PMID:Human F-box protein hCdc4 targets cyclin E for proteolysis and is mutated in a breast cancer cell line. 1156 17

Death-associated protein kinase is a calcium/calmodulin serine/threonine kinase, which positively mediates programmed cell death in a variety of systems. Here we addressed its mode of regulation and identified a mechanism that restrains its apoptotic function in growing cells and enables its activation during cell death. It involves autophosphorylation of Ser(308) within the calmodulin (CaM)-regulatory domain, which occurs at basal state, in the absence of Ca(2+)/CaM, and is inversely correlated with substrate phosphorylation. This type of phosphorylation takes place in growing cells and is strongly reduced upon their exposure to the apoptotic stimulus of C(6)-ceramide. The substitution of Ser(308) to alanine, which mimics the ceramide-induced dephosphorylation at this site, increases Ca(2+)/CaM-independent substrate phosphorylation as well as binding and overall sensitivity of the kinase to CaM. At the cellular level, it strongly enhances the death-promoting activity of the kinase. Conversely, mutation to aspartic acid reduces the binding of the protein to CaM and abrogates almost completely the death-promoting function of the protein. These results are consistent with a molecular model in which phosphorylation on Ser(308) stabilizes a locked conformation of the CaM-regulatory domain within the catalytic cleft and simultaneously also interferes with CaM binding. We propose that this unique mechanism of auto-inhibition evolved to impose a locking device, which keeps death-associated protein kinase silent in healthy cells and ensures its activation only in response to apoptotic signals.
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PMID:The pro-apoptotic function of death-associated protein kinase is controlled by a unique inhibitory autophosphorylation-based mechanism. 1157 85

We have previously shown that PTH induction of c-fos expression in the rat osteoblastic cell line UMR 106-01 requires the phosphorylation of cAMP response element-binding protein (CREB) at serine 133. Here we show that this event is not sufficient for induced transcriptional activity in UMR cells. Serine 129, but not the casein kinase II sites (serines 108, 111, 114, 117, and 121), also plays a role in the activation of CREB. First, by metabolically labeling an epitope-tagged CREB, we determined that, in addition to serine 133, other residues are phosphorylated in vivo. Using mutational analysis of a GAL4-CREB reporter system we demonstrate that serines 129 and 133 are both required for PTH-induced transcriptional activity, whereas the casein kinase II sites are not. Furthermore, PTH failed to induce transcriptional activity of GAL4-CREB in cells treated with genistein, a general tyrosine kinase inhibitor known to inhibit glycogen synthase kinase-3 (GSK-3) activity, or LiCl, the most specific GSK-3-inhibiting agent known, strongly implicating GSK-3beta in this process. Importantly, although genistein and LiCl each inhibit GSK-3beta activity, neither prevented the phosphorylation of serine 133 induced by PTH. Lastly, when serine 129 is replaced with a negatively charged aspartic acid, LiCl has no effect on the PTH-induced trans-activation of CREB. We propose that GSK-3beta phosphorylates CREB at serine 129 and thus is required for the increased transcriptional activity of CREB in response to PTH.
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PMID:PTH induction of transcriptional activity of the cAMP response element-binding protein requires the serine 129 site and glycogen synthase kinase-3 activity, but not casein kinase II sites. 1179 24

The initial signaling events underlying the chemotactic response of Escherichia coli to aspartic acid occur within a ternary complex that includes Tar (an aspartate receptor), CheA (a protein kinase), and CheW. Because CheW can bind to CheA and to Tar, it is thought to serve as an adapter protein in this complex. The functional importance of CheW binding interactions, however, has not been investigated. To better define the role of CheW and its binding interactions, we performed biochemical characterization of six mutant variants of CheW. We examined the ability of the purified mutant CheW proteins to bind to CheA and Tar, to promote formation of active ternary complexes, and to support chemotaxis in vivo. Our results indicate that mutations which eliminate CheW binding to Tar (V36M) or to CheA (G57D) result in a complete inability to form active ternary complexes in vitro and render the CheW protein incapable of mediating chemotaxis in vivo. The in vivo signaling pathway can, however, tolerate moderate changes in CheW-Tar and CheW-CheA affinities observed with several of the mutants (G133E, G41D, and 154ocr). One mutant (R62H) provided surprising results that may indicate a role for CheW in addition to binding CheA/receptors and promoting ternary complex formation.
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PMID:CheW binding interactions with CheA and Tar. Importance for chemotaxis signaling in Escherichia coli. 1192 83

An Arabidopsis SOS2 (salt overly sensitive 2)-like protein kinase gene, PKS6, was expressed in leaves, stems, and siliques, but not detectable in roots of adult plants; its expression in young seedlings was up-regulated by abscisic acid. To determine the biochemical properties of the PKS6 protein, we expressed the PKS6 coding sequence as a glutathione S-transferase fusion protein in Escherichia coli. The bacterially expressed glutathione S-transferase-PKS6 fusion protein was inactive in substrate phosphorylation. We have constructed constitutively active forms of PKS6 by either a deletion of its putative auto-inhibitory FISL motif (i.e. PKS6deltaF) or a substitution of threonine-178 with aspartic acid within the putative activation loop. We found that PKS6deltaF exhibited a strong preference for Mn2+ over Mg2+ as a divalent cation cofactor for kinase activity. PKS6DeltaF displayed substrate specificity against three different peptide substrates and had an optimal pH of approximately 7.5 and temperature optimum of 30 degrees C. The apparent Km values for ATP and the preferred peptide substrate p3 of PKS6deltaF were determined to be 1.7 and 28.5 microM, respectively. These results provide significant insights into the regulation and biochemical properties of the protein kinase PKS6. In addition, the constitutively active, gain-of-function kinase mutants will be invaluable for future determination of the in planta function of PKS6.
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PMID:Expression, activation, and biochemical properties of a novel Arabidopsis protein kinase. 1201 53

A point mutation of protein kinase Calpha (PKCalpha) has been described in pituitary adenomas and in follicular adenomas and thyroid carcinomas. The mutation results in an exchange of aspartic acid into a glycine of the amino acid 294 of PKCalpha, which is located adjacent to the Ca (2+)-binding hinge region and has been proposed as an activation inhibitor. To investigate its biochemical sequelae, we constructed the mutated enzyme and expressed it in human embryonic kidney cells (HEK). The K M of the purified enzyme for Ca (2+) and its K M for the substrate MBP 4 - 14 was not altered by the mutation. Translocation of PKCalpha to HEK cell membranes upon activation was not changed and the mutant potently inhibited cell proliferation upon 5-fold stable overexpression in HEK cells. Thus, loss of function in mutated PKCalpha was excluded. A screen for the mutation using a restriction assay with a sensitivity of at least 8 % for the mutated DNA did not show any mutation in 11 carcinoma and 13 adenomatous thyroid samples. We conclude that the A294G mutation of PKCalpha does not detectably affect its biochemical properties in vitro or in vivo, and is at least rare in thyroid neoplasias, in Germany.
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PMID:Effects of the putatively oncogenic protein kinase Calpha D294G mutation on enzymatic activity and cell growth and its occurrence in human thyroid neoplasias. 1217 71

Beta-arrestins mediate agonist-dependent desensitization and internalization of G protein-coupled receptors. Previously, we have shown that phosphorylation of beta-arrestin1 by ERKs at Ser-412 regulates its association with clathrin and its function in promoting clathrin-mediated internalization of the receptor. In this paper we report that beta-arrestin2 is also phosphorylated, predominantly at residues Thr-383 and Ser-361. Isoproterenol stimulation of the beta(2)-adrenergic receptor promotes dephosphorylation of beta-arrestin2. Mutation of beta-arrestin2 phosphorylation sites to aspartic acid decreases the association of beta-arrestin2 with clathrin, thereby reducing its ability to promote internalization of the beta(2)-adrenergic receptor. Its ability to bind and desensitize the beta(2)-adrenergic receptor is, however, unaltered. These results suggest that, analogous to beta-arrestin1, phosphorylation/dephosphorylation of beta-arrestin2 regulates clathrin-mediated internalization of the beta(2)-adrenergic receptor. In contrast to beta-arrestin1, which is phosphorylated by ERK1 and ERK2, phosphorylation of beta-arrestin2 at Thr-383 is shown to be mediated by casein kinase II. Recently, it has been reported that phosphorylation of visual arrestin at Ser-366 prevents its binding to clathrin. Thus it appears that the function of all arrestin family members in mediating internalization of G protein-coupled receptors is regulated by distinct phosphorylation/dephosphorylation mechanisms.
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PMID:Phosphorylation of beta-arrestin2 regulates its function in internalization of beta(2)-adrenergic receptors. 1218 55

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