Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.12 (PKG)
 2,515 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dehydroepiandrosterone (DHEA) treatment is effective in preventing or delaying the onset of various genetic and induced disorders of mice and rats. Associated with the beneficial therapeutic effects exerted by action of this steroid is the development of hepatomegaly. To determine whether the changes associated with hepatomegaly also involve alterations in activities of tissue enzymes, we evaluated the effects of DHEA (0.45% in food, w/w) on hepatic protein kinases, phosphatases, and lipogenic enzymes in mice of various strains. The rates of fatty acid and cholesterol syntheses also were evaluated. DHEA administration resulted in profound changes in the sodium dodecylsulfate-polyacrylamide gel electrophoresis patterns of endogenous radiophosphorylated proteins obtained by incubation of liver homogenates with (gamma-32P]ATP. These changes were dependent upon the medium used for homogenization. Thus, when homogenates of liver tissue of DHEA-treated mice were prepared in Tris buffer containing sucrose (0.25 M) there was a marked decrease in phosphorylation of the proteins of relative molecular weight approximately 116,000 (Mr approximately 116,000), approximately 82,000, approximately 80,000, approximately 58,000, approximately 56,000, approximately 48,000, approximately 34,000, and approximately 31,000 compared with controls. With liver homogenates of DHEA-treated mice prepared in Tris buffer alone, there was a marked increase in phosphorylation of the proteins of Mr approximately 70,000, approximately 49,000, approximately 34,000, approximately 31,000, and 28,000 compared with controls. Moreover, the specific activity of kinases for endogenous protein acceptors in liver of control mice was higher than that in liver of DHEA-treated animals. The specific activities of casein kinase, cAMP-dependent protein kinase, and cGMP-dependent protein kinase remained unchanged with DHEA treatment, but the specific activity of histone kinase was increased approximately 30%. Long-term administration of DHEA also was associated with increases in the specific activities of liver AMPase and GTPase (approximately two times), but not of other nucleotidases, alkaline phosphatase, acid phosphatase, glucose-6-phosphatase, or phosphotyrosine phosphatase. The activity of hepatic NADP-linked malic enzyme was increased significantly (two to three times) by DHEA treatment of female mice of three different strains, but was unchanged in male C57BL/6 mice. The specific activities of hepatic glucose-6-phosphate dehydrogenase, NADP-linked isocitrate dehydrogenase, and ATP-citrate lyase were not affected significantly by DHEA treatment of mice. The rate of hepatic lipogenesis, determined by incorporation of tritium from 3H2O into fatty acids, was decreased approximately 70% in DHEA-treated mice, while the rate of cholesterol synthesis was increased approximately 44% compared with controls.
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PMID:Dehydroepiandrosterone feeding and protein phosphorylation, phosphatases, and lipogenic enzymes in mouse liver. 215 82

Cyclic GMP-dependent protein kinase in extracts of bovine aortic tissue eluted from DEAE-cellulose ion-exchange resins as two distinct peaks of activity. This elution pattern was preserved when the peaks were combined, precipitated with ammonium sulfate, dialyzed, and rechromatographed. Proteolysis did not appear to account for the two forms of kinase because (i) aging of the extract did not cause interconversion of the two forms, and (ii) both forms retained cGMP sensitivity unlike the proteolytically formed monomer. In addition, treatment with saturating concentrations of cGMP (10 microM) did not cause interconversion of the two forms. The first peak of cGMP-dependent protein kinase eluting from DEAE-cellulose (form 1) had a slightly greater mobility on gradient sodium dodecyl sulfate-polyacrylamide gels than the second peak (form 2). On native, nondenaturing gradient polyacrylamide gels, however, form 2 displayed the greater electrophoretic mobility. Furthermore, form 1, when bound to cAMP-agarose, appeared to exchange more rapidly with cGMP than form 2 when subjected to affinity chromatography. Peptide maps generated from the two forms by protease treatment were very similar, although trypsin produced a unique peptide in form 1 and Streptomyces griseus protease gave rise to unique peptides in forms 1 and 2. Phosphorylation did not appear to account for the physical differences because both enzymes could be phosphorylated to similar extents and dephosphorylation using alkaline phosphatase did not result in the conversion of one form to the other. These results suggest that either differences in primary structure or post-translational modification, other than phosphorylation, are responsible for the presence of two forms of cGMP-dependent protein kinase in aortic tissue.
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PMID:Purification and characterization of two forms of cyclic GMP-dependent protein kinase from bovine aorta. 318 65

Cystic fibrosis transmembrane conductance regulator (CFTR) is a regulated Cl- channel; in secretory epithelia, it is located in the apical membrane where it regulates transepithelial Cl- secretion. Previous studies have shown that cAMP-dependent protein kinase (PKA) can phosphorylate and activate CFTR Cl- channels. We asked whether other kinases would phosphorylate CFTR in vitro and activate CFTR Cl- channels in excised, inside-out patches of membrane from NIH 3T3 fibroblasts stably expressing recombinant CFTR. We found that both Ca(2+)-independent and Ca(2+)-dependent isoforms of protein kinase C (PKC) activated the CFTR Cl- channel. Consistent with this finding, PKC also phosphorylated CFTR in vitro. In contrast, the multifunctional Ca2+/calmodulin-dependent protein kinase failed to either activate or to phosphorylate CFTR Cl- channels, suggesting that this enzyme has no direct effect on CFTR. We found that cGMP-dependent protein kinase (cGK) (purified from bovine lung) phosphorylated CFTR in vitro. However, cGMP failed to increase the apical membrane Cl- permeability in human airway epithelia, and addition of cGMP, ATP, and cGK failed to activate CFTR Cl- channels. These results suggest that if cGK phosphorylates CFTR in vivo, it does so at sites not involved in CFTR Cl- channel activation. Because cAMP-dependent activation of CFTR Cl- channels and Cl- secretion in intact cells is reversible, we asked whether specific phosphatases can dephosphorylate and inactivate CFTR Cl- channels. Addition of protein phosphatase 2A (PP2A) decreased PKA-activated current by 67% within 10 min. The phosphatase inhibitor calyculin-A blocked the effect of PP2A. In contrast, neither protein phosphatases 1, 2B, nor two preparations of alkaline phosphatase inactivated PKA-phosphorylated CFTR Cl- channels. The effects of protein phosphatases on CFTR function were paralleled by their ability to dephosphorylate CFTR in vitro. Our data indicate that CFTR Cl- channels can be phosphorylated and activated by PKA as well as by Ca(2+)-dependent and Ca(2+)-independent isoforms of PKC and can be dephosphorylated and thus inactivated by PP2A.
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PMID:Regulation of the cystic fibrosis transmembrane conductance regulator Cl- channel by specific protein kinases and protein phosphatases. 767 14

The C-type natriuretic peptide (10(-7) M) and atrial natriuretic peptide (10(-7) M) enhanced cGMP accumulation by 418 and 83 times the control value, respectively, in osteoblast-like MC3T3-E1 cells. The natriuretic peptide B receptor was assumed to be the major natriuretic peptide receptor. 8-Bromoguanosine 3',5'-cyclic monophosphate (8-Br-cGMP) activated alkaline phosphatase doubled the activity versus the control value on day 15. Phosphodiesterase activity was not stimulated by the addition of cGMP (1 MicroM). cGMP-dependent protein kinase (G kinase) activity of the supernatant fraction was 25.5 pmol/min/mg protein. The 42 kDa protein band was detected to be phosphorylated by G kinase on SDS-PAGE. These results supported the hypothesis that natriuretic peptides regulate the differentiation of MC3T3-E1 cells through a cGMP-dependent pathway.
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PMID:Effect of cyclic GMP produced by natriuretic peptides on osteoblast-like MC3T3-E1 cells. 898 37

Native large conductance, voltage-dependent, and Ca2+-sensitive K+ channels are activated by cGMP-dependent protein kinase. Two possible mechanisms of kinase action have been proposed: 1) direct phosphorylation of the channel and 2) indirect via PKG-dependent activation of a phosphatase. To scrutinize the first possibility, at the molecular level, we used the human pore-forming alpha-subunit of the Ca2+-sensitive K+ channel, Hslo, and the alpha-isoform of cGMP-dependent protein kinase I. In cell-attached patches of oocytes co-expressing the Hslo channel and the kinase, 8-Br-cGMP significantly increased the macroscopic currents. This increase in current was due to an increase in the channel voltage sensitivity by approximately 20 mV and was reversed by alkaline phosphatase treatment after patch excision. In inside-out patches, however, the effect of purified kinase was negative in 12 of 13 patches. In contrast, and consistent with the intact cell experiments, purified kinase applied to the cytoplasmic side of reconstituted channels increased their open probability. This stimulatory effect was absent when heat-denatured kinase was used. Biochemical experiments show that the purified kinase incorporates gamma-33P into the immunopurified Hslo band of approximately 125 kDa. Furthermore, in vivo phosphorylation largely attenuates this labeling in back-phosphorylation experiments. These results demonstrate that the alpha-subunit of large conductance Ca2+-sensitive K+ channels is substrate for G-Ialpha kinase in vivo and support direct phosphorylation as a mechanism for PKG-Ialpha-induced activation of maxi-K channels.
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PMID:The large conductance, voltage-dependent, and calcium-sensitive K+ channel, Hslo, is a target of cGMP-dependent protein kinase phosphorylation in vivo. 983 46

PP63 (parafusin) is a 63 kDa phosphoprotein, which exists in at least two different isoforms. It is very rapidly (80 ms) dephosphorylated during triggered trichocyst exocytosis. This occurs selectively in exocytosis-competent Paramecium tetraurelia strains. At least two protein kinases isolated from Paramecium, casein kinase type II kinase and cGMP-dependent kinase, are able to phosphorylate the two recombinant PP63/parafusin isoforms, both with phosphoglucomutase activity, in vitro. By performing mass spectrometric peptide mapping, we have investigated in vitro phosphorylation of recombinant PP63/parafusin by these kinases in comparison to in vivo phosphorylation of native PP63/parafusin isolated from Paramecium homogenates. Low picomolar quantities of proteolytic digests of recombinant and native PP63/parafusin, prior to and following alkaline phosphatase treatment, were directly analyzed by MALDI mass spectrometry. In native PP63-1/parafusin-1, six of 64 serine and threonine residues (S-196, T-205, T-280, T-371, T-373, and T-469) were found definitely, 27 were found possibly phosphorylated, 28 were identified as nonphosphorylated, and three were not covered by mapping. Three of the six certainly phosphorylated amino acids represent consensus phosphorylation sites for casein kinase II or cGMP-dependent protein kinase. In vitro phosphorylation studies of recombinant PP63/parafusin confirm that some of the sites found were used in vivo; however, also significant differences with respect to in vivo phosphorylation of native PP63/parafusin were observed. The two Paramecium protein kinases that were used do not preferably phosphorylate expected consensus sites in vitro. Homology structure modeling of PP63/parafusin with rabbit phosphoglucomutase revealed that the majority of residues found phosphorylated is located on the surface of the molecule.
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PMID:Comparison of in vivo and in vitro phosphorylation of the exocytosis-sensitive protein PP63/parafusin by differential MALDI mass spectrometric peptide mapping. 1038 18

Previous studies have shown that, in unstimulated mammary epithelial cells from virgin mice, prolactin receptors are retained intracellularly because of their incomplete N-glycosylation. Activation of the nitric oxide/cGMP pathway stimulates Nacetylglucosamine (NAG) transferase I activity, completion of terminal glycosylation, and redistribution of the receptors to the cell surface. In this study, it was shown that nitric oxide could stimulate the phosphorylation of NAG transferase I in intact cells and that the cGMP-dependent protein kinase (PKG) could directly phosphorylate the purified enzyme. Furthermore, this modification was associated with enhanced enzymatic activity. Conversely, this stimulation of activity was blocked in intact cells by coincubation with a PKG inhibitor and reversed in the immunoprecipitated enzyme by alkaline phosphatase treatment. Kinetic analysis revealed that this effect on enzyme activity was due to an increase in V(max) without any change in K(m). Therefore, it appears that the nitric oxide/cGMP pathway activates NAG transferase I via direct phosphorylation by PKG.
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PMID:Rapid hormonal regulation of N-acetylglucosamine transferase I. 1082 30

The striking similarities between microvillus inclusions (MIs) in enterocytes in microvillus inclusion disease (MID) and vacuolar apical compartment in tissue culture epithelial cells, led us to analyze endoscopic biopsies of duodenal mucosa of a patient after the samples were used for diagnostic procedures. Samples from another patient with an unrelated disease were used as controls. The MID enterocytes showed a decrease in the thickness of the apical F-actin layer, and normal microtubules. The immunofluorescence analysis of the distribution of five apical membrane markers (sucrase isomaltase, alkaline phosphatase, NHE-3 Na+/H+ exchanger, cGMP-dependent protein kinase, and cystic fibrosis trans-membrane conductance regulator), showed low levels of these proteins in their standard localization at the apical membrane as compared with normal duodenal epithelium processed in parallel. Instead, four of these markers were found in a diffuse distribution in the apical cytoplasm, below the terminal web (as indicated by co-localization with F-actin and cytokeratin 19), and in MIs as well. The basolateral protein Na(+)-K+ATPase, in contrast, was normally localized. These results support the hypothesis that MID may represent the first genetic defect affecting apical membrane traffic, possibly in a late step of apical exocytosis.
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PMID:Microvillus inclusion disease: a genetic defect affecting apical membrane protein traffic in intestinal epithelium. 1120 62

To clarify the regulating mechanism of vascular calcification, the investigators observed the effects of three vasoactive peptides, adrenomedullin (ADM), C-type natriuretic peptide (CNP), and parathyroid hormone-related peptide (PTHrP) on calcification in rat vascular smooth muscle cells (VSMCs). Beta-glycerophosphate stimulated growth and calcification in VSMCs. Adrenomedullin and CNP lowered beta-glycerophosphate-induced increase in VSMC growth. All three vasoactive peptides attenuated the increases of 45Ca accumulation, calcium content, and alkaline phosphatase activity in calcified VSMCs. As for comparing the inhibitory effects, the strongest was PTHrP. Both ADM and PTHrP increased cyclic adenosine monophosphate (cAMP) content in calcified VSMCs, but CNP upregulated cyclic guanosine monophosphate (cGMP) content. The PKA inhibitor PKAI completely reversed the inhibition of ADM on cell growth and all inhibitory effects of PTHrP on the parameters of calcification. The PKG inhibitor H8, however, strongly antagonized all the inhibitory effects of CNP on calcification. These data suggested that beta-glycerophosphate-induced calcification in VSMCs was inhibited by ADM, CNP, and PTHrP. Adrenomedullin and PTHrP inhibited VSMC calcification partially through the cAMP/PKA pathway, whereas CNP inhibited VSMC calcification through the cGMP/PKG pathway. This study could be of help in understanding the pathogenesis of vascular calcification, and providing new target for clinical treatment of cardiovascular diseases associated with vascular calcification.
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PMID:Effects of adrenomedullin, C-type natriuretic peptide, and parathyroid hormone-related peptide on calcification in cultured rat vascular smooth muscle cells. 1282 32

Cell-based microarrays have been used for a wide variety of assays including gain-of-function, loss-of-function and compound screening. Many of these assays have employed fluorescent proteins as reporters. These fluorescent reporter proteins can be monitored in living cells but have low sensitivity of detection compared to enzymatic reporters. Here we have described a novel transcriptional reporter assay using the alkaline phosphatase reporter enzyme and a fluorescent substrate (ELF-97) to screen for gain-of-function mutations in the type-I cGMP-dependent protein kinase (PRKG1). We have identified a constitutively active mutant of this enzyme in which a conserved Glu at position 81 was mutated to Lys.
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PMID:A novel fluorescent transcriptional reporter for cell-based microarray assays. 2110 53


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