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)

1. The regulation of the cardiac Ca2+ release channel-ryanodine receptor (RyR) by exogenous acid phosphatase (AcPh) and purified Ca(2+)-calmodulin-dependent protein kinase II (CaMKII) was studied in swine and rabbit sarcoplasmic reticulum (SR) vesicles using [3H]ryanodine binding and planar bilayer reconstitution experiments. 2. Addition of AcPh (1-20 U ml-1) to a standard incubation medium increased [3H]ryanodine binding in a Ca(2+)-dependent manner. Stimulation was only readily apparent in media containing micromolar Ca2+ concentrations. 3. Scatchard analysis of [3H]ryanodine binding curves revealed that AcPh enhanced binding by increasing the affinity of the receptor for [3H]ryanodine without recruiting additional receptor sites (Kd, 9.8 +/- 0.85 and 3.9 +/- 0.65 nM; Bmax (the maximal receptor density), 1.45 +/- 0.14 and 1.47 +/- 0.12 pmol mg-1 for control and AcPh, respectively). The failure of AcPh to increase Bmax suggested that the number of receptors that were 'dormant' due to phosphorylation in the SR preparation was very small. 4. At the single channel level, AcPh increased the open probability (Po) of RyR channels by increasing the opening rate and inducing the appearance of a longer open state while having no effect on single channel conductance. Thus AcPh acted directly on RyR channels or a closely associated regulatory protein. 5. CaMKII decreased both [3H]ryanodine binding and Po of RyRs when added to medium supplemented with micromolar levels of Ca2+ and calmodulin (CaM). Addition of a synthetic peptide inhibitor of CaMKII, or replacement of ATP with the non-hydrolysable ATP analogue adenylyl[beta, gamma-methylene]-diphosphate (AMP-PCP), prevented CaMKII inhibition of RyRs, suggesting that CaMKII acted specifically through a phosphorylation mechanism. 6. The inhibition of RyR channel activity by CaMKII was reversed by the addition of AcPh. Thus we showed that an in vitro phosphorylation-dephosphorylation mechanism effectively regulates RyRs. 7. The results suggest that intracellular signalling pathways that lead to activation of CaMKII may reduce efflux of Ca2+ from the SR by inhibition of RyR channel activity. The Ca2+ dependence of CaMKII inhibition suggests that the role of the phosphorylation mechanism is to modulate the RyR response to Ca2+.
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PMID:Modulation of cardiac ryanodine receptors of swine and rabbit by a phosphorylation-dephosphorylation mechanism. 854 25

The possible involvement of zeta isozyme of protein kinase C (PKC zeta) in phorbol ester-induced signal transduction was investigated in mouse epidermal cells. Western blot analysis of RESOURCE Q column chromatography eluates obtained from 105,000 g supernatants and particulate fractions of epidermal cells was performed using anti-PKC zeta specific antibody. Anti-PKC zeta antibody recognised proteins in low salt range corresponding to 25-125 mM NaCl (low salt-eluted PKC zeta; 1-PKC zeta) as well as high salt range corresponding to 175-300 mM NaCl (high salt-eluted PKC zeta; h-PKC zeta) in both subcellular fractions. 1-PKC zeta and h-PKC zeta were detected as a doublet protein of 79,000 and 85,000 M(r) in 105,000 g supernatants, but as a 79,000 M(r) protein in particulate fractions. Immunoprecipitated 1-PKC zeta and h-PKC zeta with anti-PKC zeta specific antibody possessed phosphatidylserine (PS)-dependent protein kinase activity, but neither 1-PKC zeta nor h-PKC zeta were further activated by 40 nM phorbol 12-myristate 13-acetate (PMA) in the presence of PS. Furthermore, 1-PKC zeta and h-PKC zeta can be autophosphorylated, indicating that both 1-PKC zeta and h-PKC zeta are PKC zeta. Treatment of intact epidermal cells with PMA or other PKC activators caused the apparent shift of 79,000 M(r) 1-PKC zeta to the 85,000 M(r) from in particulate fractions. Prolonged treatment of the cells with PMA induced the downregulation of both forms of 1-PKC zeta in particulate fractions. Under the same condition, 1-PKC zeta in 105,000 g supernatants and h-PKC zeta in both fractions did not respond to PMA. This apparent shift was reversible and the content ratio of 85,000 to 75,000 M(r) 1-PKC zeta was decreased by acid phosphatase treatment, indicating that the apparent shift results at least in part from phosphorylation of 79,000 M(r) 1-PKC zeta. Total activity of 1-PKC zeta was increased in association with the apparent shift from the 79,000 to 85,000 M(r) form in response to PMA treatment of intact epidermal cells. All of these results indicate that PKC zeta is present as multiple forms in mouse epidermal cells, and that especially 1-PKC zeta in particulate fractions play a significant role(s) in PMA-induced signal transduction in mouse epidermal cells.
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PMID:The presence of phorbol ester responsive and non-responsive forms of the zeta isozyme of protein kinase C in mouse epidermal cells. 856 10

The PH081 gene product functions as an inhibitor of the cyclin-cyclin-dependent kinase pair, Pho80-Pho85, and is required for derepression of acid phosphatase-encoding gene (PH05) expression. PH081 is the only known regulator of this system whose transcriptional expression is regulated by the level of inorganic phosphate. This effect is mediated by the gene products of the PH04 and PH02 (BAS2, GRF10) genes which act as transcription factors. Fine structural analysis of the PH081 promoter region has revealed the existence of a negative regulatory sequence (NRS). That is, removal of this element causes an approx. 4-fold increase in PH081 expression. The NRS functions in either orientation, but only when located downstream from activation sequences. Interestingly, this element shows significant homology to a sequence present in the promoter of the PH08 gene, encoding a phosphate-repressible alkaline phosphatase. An electrophoretic mobility shift assay (EMSA) using whole-cell extracts and a NRS-containing DNA fragment detects a protein which specifically binds to this element.
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PMID:Negative transcriptional regulation of PH081 expression in Saccharomyces cerevisiae. 862 60

It has been suggested that casein kinase II phosphorylates DNA topoisomerase II alpha (topo II alpha) in mouse FM3A cells, by comparison of phosphopeptide maps of topo II alpha labeled in intact cells and of topo II alpha phosphorylated by various kinases in vitro. The phosphorylation of purified topo II alpha by casein kinase II, which attached a maximum of two phosphate groups per topo II alpha molecule, had no effect on the activity of topo II alpha. Dephosphorylation of purified topo II alpha by potato acid phosphatase, which almost completely dephosphorylated the topo II alpha, did not reduce the activity of topo II alpha. The incubation itself, regardless of phosphorylation or dephosphorylation status, stimulated the enzyme activity in both reactions. Topo II alpha activity was stimulated by incubation in a medium containing low concentrations of glycerol but not in that containing high concentrations of glycerol, such as the 50% in which purified topo II alpha is stored. The stimulation of topo II alpha activity by incubation was dependent on the concentration of topo II alpha, requiring a relatively high concentration of topo II alpha.
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PMID:Phosphorylation-independent stimulation of DNA topoisomerase II alpha activity. 863 19

The proteasome, a multimeric protease, plays an important role in nonlysosomal pathways of intracellular protein degradation. This study was undertaken to determine which subunits of mammalian proteasomes are phosphorylated and to investigate the possible role of phosphorylation in regulating proteasome activity and the association with regulatory components. Rat-1 fibroblasts were grown in the presence of [32P]phosphate and proteasomes were immunoprecipitated from cell lysates with proteasome-specific polyclonal antibodies. Subsequent analysis by two-dimensional polyacrylamide gel electrophoresis showed two radiolabeled proteasome subunits which were identified using monoclonal antibodies as C8 and C9. Treatment of human embryonic lung cells (L-132), under identical conditions, also showed the same two phosphorylated subunits. Phosphoamino acid analysis revealed phosphoserine to be present in both C8 and C9. Examination of the sequence of C9 showed a potential cGMP-dependent phosphorylation site (-Arg3-Arg-Tyr-Asp-Ser-Arg8-), whilst C8 contains several potential casein kinase II phosphorylation sites. Following immunoprecipitation by a monoclonal antibody and dephosphorylation by acid phosphatase, proteasomes were observed to have significantly lower activities when compared to phosphorylated proteasomes, implying that phosphorylation may be an important mechanism of regulating proteasome function. Free proteasomes were separated by gel-filtration from those complexed with regulatory complexes to form the 26S proteinase. The ratio of phosphorylation of C8 and C9 was found to be very similar in the two complexes but the level of phosphorylation was higher in the 26S proteinase than in free proteasomes.
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PMID:Phosphorylation of proteasomes in mammalian cells. Identification of two phosphorylated subunits and the effect of phosphorylation on activity. 868 58

Rabbit erythrocytes of progressively increasing age were isolated using an avidin-biotin affinity technique and the activity of protein kinases and other enzymes was analyzed in cytosols and membranes from the isolated cells. The activities of cytosolic protein kinase C (PKC), cAMP-dependent kinase (PKA), and casein kinase type I and II (CKI and II) were all found to undergo an age-dependent decrease of twofold to fourfold over the 8-week lifespan of the cells. Membrane-associated tyrosine kinase showed little or no decrease, but membrane-associated CKI showed a dramatic eightfold decrease over the 8-week period. By contrast, various cytosolic enzymes, including lactate dehydrogenase, phosphoglycerate kinase, pyruvate kinase, and acid phosphatase, showed no change in activity over the same time period. Density-separated human erythrocytes showed qualitatively similar decreases in cytosolic protein kinase activities in the densest fractions, which contain the oldest cells. Our results show that aging erythrocytes undergo progressive loss of protein kinases that may adversely affect various cellular processes. The age-dependent loss of kinase activity reported here is one of the most striking manifestations of erythrocyte senescence yet to be reported.
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PMID:Specific loss of protein kinase activities in senescent erythrocytes. 869 69

Pho85, a protein kinase with significant homology to the cyclin-dependent kinase, Cdc28, has been shown to function in repression of transcription of acid phosphatase (APase, encoded by PHO5) in high phosphate (Pi) medium, as well as in regulation of the cell cycle at G1/S. We described several unique phenotypes associated with the deletion of the PHO85 gene including growth defects on a variety of carbon sources and hyperaccumulation of glycogen in rich medium high in Pi. Hyperaccumulation of glycogen in the pho85 strains is independent of other APase regulatory molecules and is not signaled through Snfl kinase. However, constitutive activation of cAPK suppresses the hyperaccumulation of glycogen in a pho85 mutant. Mutation of the type-1 protein phosphatase encoded by GLC7 only partially suppresses the glycogen phenotype of the pho85 mutant. Additionally, strains containing a deletion of the PHO85 gene show an increase in expression of GSY2. This work provides evidence that Pho85 has functions in addition to transcriptional regulation of APase and cell-cycle progression including the regulation of glycogen levels in the cell and may provide a link between the nutritional state of the cell and these growth related responses.
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PMID:Deletion of the gene encoding the cyclin-dependent protein kinase Pho85 alters glycogen metabolism in Saccharomyces cerevisiae. 872 62

A M(r) 25,000 protein, which was isolated from the cytosolic fraction of Xenopus laevis oocytes, is a newly identified substrate for casein kinase II and protein kinase C [Hashimoto et al. (1995) J. Biochem. 118, 453-460], and was recently shown to have the ability to modulate protein phosphatase 2A activity [Hashimoto et al. (1996) J. Biochem. 119, 626-632]. Acid phosphatase treatment of the protein shifted its electrophoretic mobility from 25 to 20 kDa on SDS-PAGE. The content of alkali-labile phosphate bound covalently to the protein was 53 mol per mol of M(r) 25,000 protein. Amino acid composition analysis revealed that there are 50 serine residues and 6 threonine residues per mol of this protein. Therefore, this M(r) 25,000 protein seems to be highly phosphorylated in vivo. The M(r) 25,000 protein, once partially dephosphorylated by acid phosphatase, served as an efficient substrate for casein kinase I and casein kinase II. When entirely dephosphorylated, the M(r) 25,000 protein was used as a substrate, the rate of phosphorylation with both casein kinases being decreased. This behavior of casein kinases toward the M(r) 25,000 protein reflects the possible mechanism of multisite phosphorylation in which the introduction of a phosphate group facilitates sequential phosphorylation.
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PMID:Studies on the phosphorylation of a M(r) 25,000 protein, a putative protein phosphatase 2A modulator, by casein kinase I, and analysis of multiple endogenous phosphates. 879 4

In budding yeast, entry into the mitotic cell cycle, or Start, requires the Cdc28 cyclin-dependent kinase (Cdk) and one of its three associated G1 cyclins, Cln1, Cln2, or Cln3. In addition, two other G1 cyclins, Pcl1 and Pcl2, associate with a second Cdk, Pho85, to contribute to Start. Although Pho85 is not essential for viability, Pcl1,2-Pho85 kinase complexes become essential for Start in the absence of Cln1,2-Cdc28 kinases. In addition, Pho85 interacts with a third cyclin, Pho80, to regulate acid phosphatase gene expression. Other cellular roles for Pho85 cyclin-Cdk complexes are suggested by the multiple phenotypes associated with deletion of PHO85, in addition to Start defects and deregulated acid phosphatase gene expression. Strains with pho80, pcl1, and pcl2 deletions show only a subset of the pho85 mutant phenotypes, suggesting the existence of additional Pho85 cyclins (Pcls). We used two-hybrid screening and database searching to identify seven additional cyclin-related genes that may interact with Pho85. We found that all of the new genes encode proteins that interacted with Pho85 in an affinity chromatography assay. One of these genes, CLG1, was previously suggested to encode a cyclin, based on the protein's sequence homology to Pcl1 and Pcl2. We have named the other genes PCL5, PCL6, PCL7, PCL8, PCL9, and PCL10. On the basis of sequence similarities, the PCLs can be divided into two subfamilies: the Pcl1,2-like subfamily and the Pho80-like subfamily. We found that deletion of members of the Pcl1,2 class of genes resulted in pronounced morphological abnormalities. In addition, we found that expression of one member of the Pcl1,2 subfamily, PCL9, is cell cycle regulated and is decreased in cells arrested in G1 by pheromone treatment. Our studies suggest that Pho85 associates with multiple cyclins and that subsets of cyclins may direct Pho85 to perform distinct roles in cell growth and division.
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PMID:A family of cyclin-like proteins that interact with the Pho85 cyclin-dependent kinase. 903 48

Acyl analogs of platelet-activating factor (PAF) (1-acyl-2-acetyl-sn-glycero-3-phosphocholine, acylacetyl -GPC) are the predominant products synthesized during thrombin or ionophore A23187-mediated activation of endothelial cells. However, the biosynthetic pathway responsible for the production of acylacetyl-GPC is not well understood. In the present investigation, we have demonstrated that the acyl analogs of PAF are also the major products from calf pulmonary artery endothelial cells in response to a time-dependent stimulation of ATP (10(-3) M), bradykinin (10(-8) M), or ionophore A23187 (2 microM). In addition, we have found that the CoA-independent PAF:acyllyso-GPC transacetylase recently identified by us is concurrently and transiently induced with maximal 4-fold enhancement at 5 min and returned to near basal level by 10 min treatment of endothelial cells with ATP. Acid phosphatase reduces the increased PAF:acyllyso-GPC transacetylase activity from the homogenates of ATP-activated endothelial cells. Reduced PAF:acyllyso-GPC transacetylase activity can be restored by incubating the acid phosphatase-treated homogenates with ATP (5 mM) and Mg2+ (10 mM). Furthermore, okadaic acid, a protein phosphatase 1 and 2A inhibitor, incubated with endothelial cells in a dose-dependent manner (1-100 nM) for 10-min potentiates and sustained the stimulation of PAF:acyllyso-GPC transacetylase activity by ATP. On the other hand, genistein, tyrphostin-25 (inhibitors of tyrosine-specific protein kinase), and calphostin C (an inhibitor of protein kinase C) block the activation of PAF:acyllyso-GPC transacetylase by ATP. These results are consistent with the notion that ATP regulates the transacetylase activity by reversible activation and inactivation via the phosphorylation and dephosphorylation cycle. ATP also augments the activities of alkyllyso-GPC/acyllyso-GPC:acetyl-CoA acetyltransferase. However, the activation of the acetyltransferases precedes that of the transacetylase with peak activation occurring at 1-2 min of the ATP treatment. In addition, sodium vanadate, also an inhibitor of protein phosphatase, stimulates the increase in the incorporation of [3H]acetate into acyl[3H]acetyl-GPC of the ATP-treated endothelial cells. Collectively, our data show that both acetyltransferases and transacetylase participate in and contribute to the biosynthesis of acyl analogs of PAF in a coordinate fashion in endothelial cells.
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PMID:The role of platelet-activating factor-dependent transacetylase in the biosynthesis of 1-acyl-2-acetyl-sn-glycero-3-phosphocholine by stimulated endothelial cells. 921 86


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