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

The homogenate of MC3T3-E1 cells hydrolysed phosphotyrosine, but not phosphoserine or phosphothreonine at acidic pH. It dephosphorylated lysozyme and Raytide (a gastrin analogue peptide) phosphorylated by tyrosine kinase, but showed little activity toward histones phosphorylated by cyclic AMP-dependent protein kinase. Dephosphorylation of phosphorylated lysozyme and Raytide were inhibited by zinc and vanadate, but were insensitive to okadaic acid. These data suggest that the osteoblastic cell line MC3T3-E1 has a phosphotyrosyl protein phosphatase-like activity that may participate in cellular regulation involving protein tyrosine phosphorylation.
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PMID:Phosphotyrosyl protein phosphatase-like activity of a clonal osteoblastic cell line (MC3T3-E1 cell). 865 86

cAMP-dependent protein kinase (A-kinase) anchoring proteins (AKAPs) are responsible for the subcellular sequestration of the type II A-kinase. Previously, we identified a 78 kDa AKAP which was enriched in gastric parietal cells. We have now purified the 78 kDa AKAP to homogeneity from gastric fundic mucosal supernates using type II A-kinase regulatory subunit (RII) affinity chromatography. The purified 78 kDa AKAP was recognized by monoclonal antibodies against ezrin, the canalicular actin-associated protein. Recombinant ezrin produced in either Sf9 cells or bacteria also bound RII. Recombinant radixin and moesin, ezrin-related proteins, also bound RII in blot overlay. Analysis of recombinant truncations of ezrin mapped the RII binding site to a region between amino acids 373 and 439. This region contained a 14-amino-acid amphipathic alpha-helical putative RII binding region. A synthetic peptide containing the amphipathic helical region (ezrin409-438) blocked RII binding to ezrin, but a peptide with a leucine to proline substitution at amino acid 421 failed to inhibit RII binding. In mouse fundic mucosa, RII immunoreactivity redistributed from a predominantly cytosolic location in resting parietal cells, to a canalicular pattern in mucosa from animals stimulated with gastrin. These results demonstrate that ezrin is a major AKAP in gastric parietal cells and may function to tether type II A-kinase to a region near the secretory canaliculus.
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PMID:Ezrin is a cyclic AMP-dependent protein kinase anchoring protein. 900 65

The kinase splitting membranal proteinase (KSMP) is a metalloendopeptidase that inactivates the catalytic (C) subunit of protein kinase A (PKA) by clipping off its carboxyl terminal tail. Here we show that this cleavage occurs at Glu332-Glu333, within the cluster of acidic amino acids (Asp328-Glu334) of the kinase. The Km values of KSMP and of meprin beta (which reproduces KSMP activity) for the C-subunit are below 1 microM. The Km for peptides containing a stretch of four Glu residues are in the micromolar range, illustrating the significant contribution of this cluster to the substrate recognition of meprin beta. This conclusion is supported by a systematic study using a series of the C-subunit mutants with deletions and mutations in the cluster of acidics. Hydrophobic amino acids vicinal to the cleavage site increase the Kcat of the proteinase. These studies unveil a new specificity for meprin beta, suggesting new substrates that are 1-2 orders of magnitude better in their Km and Kcat than those commonly used for meprin assay. A search for substrates having such a cluster of acidics and hydrophobics, which are accessible to meprin under physiological conditions, point at gastrin as a potential target. Indeed, meprin beta is shown to cleave gastrin at its cluster of five glutamic acid residues and also at the M-D bond within its WMDF-NH2 sequence, which is indispensable for all the known biological activities of gastrins. The latter meprin cleavage will lead to the inactivation of gastrin and thus to the control of its activity.
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PMID:Unveiling the substrate specificity of meprin beta on the basis of the site in protein kinase A cleaved by the kinase splitting membranal proteinase. 901 48

In this study we investigated the short-term effect of somatostatin on histamine synthesis in a cell population isolated from rabbit gastric mucosa and enriched in enterochromaffin-like cells. Somatostatin inhibited basal and gastrin-stimulated histamine synthesis through a dual mechanism involving a decrease in the affinity of histidine decarboxylase (HDC) for its substrate (L-histidine) and a reduction in the number of functional HDC molecules. H-89 (an inhibitor of cAMP-dependent protein kinase) mimicked somatostatin-induced reduction of HDC affinity, which, on the contrary, was selectively reversed by pertussis toxin (PTX). Furthermore, forskolin was shown to reverse the inhibitory effect of H-89 and to prevent the somatostatin-induced reduction in HDC affinity for L-histidine. Thus, the somatostatin-induced reduction in affinity seems to involve a PTX-sensitive G protein and an inhibition of the cAMP-dependent pathway. On the other hand, the somatostatin-induced decrease in the number of functional HDC molecules seems to be PTX insensitive and independent from a modulation of the cAMP pathway, and does not seem to involve a significant change in HDC messenger RNA expression or a regulation of protein kinase C. The exact nature of this second mechanism will need further studies to be elucidated.
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PMID:Short-term inhibitory effect of somatostatin on gastric histamine synthesis. 904 95

Prohormones such as the gastrin precursor can be phosphorylated at Ser residues, on passage along the secretory pathway. The phosphorylation site occurs in a sequence (-Ser-Ala-Glu-) that suggests these peptides are substrates for physiological casein kinase, but the presence of this enzyme in endocrine cells is unknown. We have examined the specificity of Golgi membrane kinases from lactating rat mammary gland, bovine adrenal medulla and the GH3 cell line, for phosphorylation of progastrin fragments and analogues. The kinetics of phosphorylation of peptides with the native sequence, -Arg-Arg-Ser-Ala-Glu- were similar to those of tryptic cleavage fragments (Ser-Ala-Glu-) in both mammary and endocrine cell preparations. The product of in vitro phosphorylation was chromatographically indistinguishable from native peptide. Peptides with the sequence Ser-Ala-Ala (i.e., substitution of Glu to Ala) were not phosphorylated. We conclude that a physiological casein kinase like enzyme can act on both the gastrin precursor and its COOH-terminal cleavage product, and occurs in the Golgi complex of both mammary gland and peptide-producing endocrine cells.
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PMID:Phosphorylation of gastrin-related peptides: physiological casein kinase like enzyme in Golgi membranes from bovine adrenal chromaffin cells and GH3 cells. 909 53

Protein kinase D (PKD) is a serine/threonine protein kinase that is activated by phorbol esters via protein kinase C in intact cells. To assess the physiological significance of this putative pathway, we examined the regulation of PKD in living cells by mitogenic regulatory peptides and by platelet-derived growth factors (PDGF). Our results demonstrate that bombesin rapidly induces PKD activation in Swiss 3T3 cells, as shown by autophosphorylation and syntide-2 phosphorylation assays. Maximum PKD activation (14-fold above base-line levels) was obtained 90 s after bombesin stimulation. Bombesin also induced PKD activation in Rat-1 cells stably transfected with the bombesin/gastrin releasing peptide (GRP) receptor and in COS-7 cells transiently co-transfected with PKD and bombesin/GRP receptor expression constructs. No inducible kinase activity was demonstrated when COS-7 cells were transfected with a kinase-deficient PKD mutant. Bombesin-mediated PKD activation was prevented by treatment of Swiss 3T3 cells with the protein kinase C inhibitors GF 1092030X and Ro 31-8220. In contrast, these compounds did not inhibit PKD activity when added directly in vitro. Vasopressin, endothelin, and bradykinin also activated PKD in Swiss 3T3 cells through a PKC-dependent pathway. Platelet-derived growth factor-stimulated PKD activation in Swiss 3T3 cells and in porcine aortic endothelial cells stably transfected with PDGF-beta receptors. Treatment with GF 1092030X or Ro 31-8220 inhibited PKD activation induced by PDGF. Thus, our results indicate that PKD is activated by multiple signaling peptides through a protein kinase C-dependent signal transduction pathway in a variety of cell types.
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PMID:Bombesin, vasopressin, endothelin, bradykinin, and platelet-derived growth factor rapidly activate protein kinase D through a protein kinase C-dependent signal transduction pathway. 929 46

Gastrin stimulates transcription of the human histidine decarboxylase (HDC) gene through binding to the G-protein-coupled cholecystokinin-B/gastrin receptor. We have explored the possibility that mitogen-activated protein kinase cascades play a role in mediating the effects of gastrin on transcription in a gastric cancer (AGS-B) cell line. Gastrin and phorbol 12-myristate 13-acetate (PMA) treatment of AGS-B cells was found to increase the phosphorylation of tyrosine residues of extracellular signal-regulated kinases (ERKs) 1 and 2 and increase ERK activity as determined by the in vitro phosphorylation of myelin basic protein. Reporter gene assays also demonstrated that gastrin and PMA stimulated Elk-1- and c-Myc-dependent transactivation, consistent with gastrin- and PMA-induced activation of ERKs. Overexpression of wild type ERK-1 and ERK-2 or activation of endogenous ERKs using activated MEK-1 (mitogen-activated protein kinase kinase or ERK kinase) overexpression stimulated HDC promoter activity in a dose-dependent fashion. Interruption of the ERK-related pathway using expression vectors for kinase-deficient ERKs or an ERK-specific phosphatase (PAC-1) blocked gastrin- and PMA-stimulated HDC promoter activity. In contrast, inhibition of the Jun kinase pathway using an interfering dominant negative SEK-1 (stress-activated protein kinase/ERK-1) mutant did not inhibit HDC promoter activity. Furthermore, whereas gastrin stimulated phosphorylation of Shc proteins and association with Grb2, activation of the HDC promoter was not influenced by expression of dominant negative Ras (N15 or N17) proteins. However, gastrin stimulated Raf-1 kinase activity, and activation of the HDC promoter was blocked by coexpression of a dominant negative Raf-1 construct. Overall, these data demonstrate that gastrin regulates HDC transcription in a Rafdependent, Ras-independent fashion predominantly through activation of the ERK-related pathway.
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PMID:Gastrin and phorbol 12-myristate 13-acetate regulate the human histidine decarboxylase promoter through Raf-dependent activation of extracellular signal-regulated kinase-related signaling pathways in gastric cancer cells. 934 Nov 40

The parietal cell has three types of activating receptors for acid secretion on its basolateral membrane, i.e., histamine H2, acetylcholine M3, and gastrin CCKB. Activation of acid secretion is achieved by two concomitant functional changes namely: (i) tubulovesicles fuse with the apical secretory membrane, thus recruiting functional pumps to the expanded microvillar surface, and (ii) the apical membrane acquires a permeability to KCl. The major path for parietal cell stimulation is via H2-receptor-mediated adenylate cyclase and elevation of cAMP to activate protein kinase A (PKA), which phosphorylates key effector proteins, e.g., ezrin, a membrane-cytoskeletal linker, apical Cl- or K(+)-channels. Ca2+ is liberated from intracellular stores by IP3, which in turn is the result of M3-, CCKB-, or possibly H2-coupled activation of phospholipase C. The resulting protein kinase C activation may have both inhibitory and excitatory roles. Elevated Ca2+ activates calmodulin-dependent kinases, e.g., calmodulin kinase II and myosin light chain kinase, that could promote vesicular motor activity. Ezrin is considered to play a main role in the vesicular transport system of the parietal cell. The regulation might be conducted through the phosphorylation of the molecule to modify its property to interact with the cytoskeletal components, membranes or membrane proteins.
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PMID:[Signal transduction and intracellular recruitment of gastric proton pump in the parietal cell]. 950 88

The ptp gene of Acinetobacter johnsonii was previously reported to encode a low-molecular-mass protein, Ptp, whose amino acid sequence, predicted from the theoretical analysis of the nucleotide sequence of the gene, exhibits a high degree of similarity with those of different eukaryotic and prokaryotic phosphotyrosine-protein phophatases. We have now overexpressed the ptp gene in Escherichia coli cells, purified the Ptp protein to homogeneity by a single-step chromatographic procedure, and analysed its functional properties. We have shown that Ptp can catalyse the dephosphorylation of p-nitrophenyl phosphate and phosphotyrosine, but has no effect on phosphoserine or phosphothreonine. Its activity is blocked by ammonium molybdate and sodium orthovanadate, which are strong inhibitors of phosphotyrosine-protein phosphatases, as well as by N-ethylmaleimide and iodoacetic acid. Such specificity of Ptp for phosphotyrosine has been confirmed by the observation that it can dephosphorylate endogenous proteins phosphorylated on tyrosine, but not proteins modified on either serine or threonine. In addition, Ptp has been shown to quantitatively dephosphorylate two exogenous peptides, derived respectively from leech hirudin and human gastrin, previously phosphorylated on tyrosine. Moreover, site-directed mutagenesis experiments performed on Cys11 and Arg16, which are both present in the sequence motif (H/V)C(X5)R(S/T) typical of eukaryotic phosphotyrosine-protein phosphatases, have demonstrated that each amino acid residue is essential for the catalytic activity of Ptp. Taken together, these data provide evidence that Ptp is a member of the phosphotyrosine-protein phosphatase family. Furthermore, in search for the biological function of Ptp, we have found that it can specifically dephosphorylate an endogenous protein kinase, termed Ptk, which is known to autophosphorylate at multiple tyrosine residues in the inner membrane of Acinetobacter johnsonii cells. This represents the first identification of a protein substrate for a bacterial phosphotyrosine-protein phosphatase, and therefore constitutes a possible model for analysing the role of reversible phosphorylation on tyrosine in the regulation of microbial physiology.
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PMID:Functional characterization of the low-molecular-mass phosphotyrosine-protein phosphatase of Acinetobacter johnsonii. 957 Oct 56

The conserved glycines in the glycine-rich loop (Leu-Gly50-Thr-Gly52-Ser-Phe-Gly55-Arg-Val) of the catalytic (C) subunit of cAMP-dependent protein kinase were each mutated to Ser (G50S, G52S, and G55S). The effects of these mutations were assessed here using both steady-state and pre-steady-state kinetic methods. While G50S and G52S reduced the apparent affinity for ATP by approximately 10-fold, substitution at Gly55 had no effect on nucleotide binding. In contrast to ATP, only mutation at position 50 interfered with ADP binding. These three mutations lowered the rate of phosphoryl transfer by 7-300-fold. The combined data indicate that G50 and G52 are the most critical residues in the loop for catalysis, with replacement at position 52 being the most extreme owing to a larger decrease in the rate of phosphoryl transfer (29 vs 1.6 s-1 in contrast to 500 s-1 for wild-type C). Surprisingly, all three mutations lowered the affinity for Kemptide by approximately 10-fold, although none of the loop glycines makes direct contact with the substrate. The inability to correlate the rate constant for net product release with the dissociation constant for ADP implies that other steps may limit the decomposition of the ternary product complex. The observations that G52S (a) selectively affects ATP binding and (b) significantly lowers the rate of phosphoryl transfer without making direct contact with either the nucleotide or the peptide imply that this residue serves a structural role in the loop, most likely by positioning the backbone amide of Ser53 for contacting the gamma-phosphate of ATP. Energy-minimized models of the mutant proteins are consistent with the observed kinetic consequences of each mutation. The models predict that only mutation of Gly52 will interfere with the observed hydrogen bonding between the backbone and ATP.
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PMID:Kinetic analyses of mutations in the glycine-rich loop of cAMP-dependent protein kinase. 960 Oct 30


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