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 functional significance of the oxidation/reduction state of sulfhydryl groups of cGMP-dependent protein kinase (cGMP kinase) was studied at 30 degrees C using different metal ions as oxidizing agents. Mn2+, Zn2+, Fe2+, Ni2+, and Co2+ failed to activate cGMP kinase, whereas Cu2+, Cu+, Fe3+, Hg2+, and Ag+ activated cGMP kinase by oxidation with an activity ratio (-cGMP/+cGMP) of about 0.7. The activation was not caused by degradation of the enzyme to a cGMP-independent constitutively active form. Reduction of the Cu(2+)-activated and gel-filtered enzyme with dithiothreitol lowered the activity ratio in the absence of cGMP to 0.17. Oxidation did not change the kinetic and binding parameters of cGMP kinase significantly but reduced the number of titratable sulfhydryl groups from 9.5 +/- 0.7 to 6.0 +/- 0.4 cysteines/75-kDa subunit. The free cysteinyl residues of the native and Cu(2+)-oxidized cGMP kinase were labeled with 4-dimethylaminoazobenzene-4'-iodoacetamide or N-(7-dimethylamino-4-methyl-3-coumarinyl)maleimide. Tryptic peptides of the labeled proteins were isolated and sequenced. The cysteinyl residues oxidized by Cu2+ were identified as disulfide bonds between Cys-117 and Cys-195 and Cys-312 and Cys-518, respectively. Cu2+ activation of cGMP kinase was prevented by mild carboxymethylation of the reduced enzyme with iodoacetamide, which apparently modified these four cysteinyl groups. The results show that cGMP kinase is activated by the formation of at least one intrachain disulfide bridge.
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PMID:Oxidation of cysteines activates cGMP-dependent protein kinase. 165 29

Expression of tyrosinase in Streptomyces requires functional MelC1 protein, which is postulated to transfer copper to apotyrosinase. We have previously isolated a mutant of Streptomyces lividans, HT32, that phenotypically suppressed mutations in cloned melC1 (H.-C. Tseng and C. W. Chen, in preparation). Plasmid pLUS132, containing an ATG to ATA transition at the initiation codon of melC1, was used for cloning the suppressor gene from HT32. A 1687 bp suppressor DNA was isolated that contained two characteristic Streptomyces coding sequences: a 217-amino-acid open reading frame (cutR) and a truncated open reading frame (cutS) downstream. Subcloning analysis attributed the phenotypic suppression activity to the putative cutR gene from HT32. The putative CutR exhibited similarity to the response regulator OmpR of the osmoregulatory signal-transduction system in Escherichia coli. The truncated CutS resembled, to a lesser degree, the N-terminus of EnvZ, the histidine protein kinase counterpart of OmpR. DNA hybridizing to the cloned cutR-cutS sequence was detected in 16 other Streptomyces species. We postulate that the putative cutR-cutS operon regulates copper metabolism in Streptomyces.
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PMID:A cloned ompR-like gene of Streptomyces lividans 66 suppresses defective melC1, a putative copper-transfer gene. 195 95

Other laboratories have reported biphasic effects of heavy metals on protein kinase C activity: stimulation followed by inhibition at higher concentrations. We demonstrate that these earlier findings most likely resulted from a combination of the effect of the heavy metals to liberate Ca2+ from Ca2+-EGTA buffer systems and the direct inhibitory effects of the metals on protein kinase C. Simulations of such interactions substantiate this conclusion. When soluble protein kinase C is prepared without the addition of Ca2+ or chelator, heavy metals (Cd2+, Cu2+, Hg2+, Zn2+, in the 10 microM range) inhibit the activity of, and the binding of regulatory ligands to, protein kinase C. Heavy metals inhibit the extent of [3H]phorbol dibutyrate binding without affecting the affinity of the interaction, an inhibition that is not surmounted by excess phospholipid. Heavy metals also inhibit the phospholipid-dependent catalytic activity of protein kinase C in a manner that excess phosphatidylserine can overcome. The inhibition of enzyme activity by heavy metals cannot be surmounted by excess Ca2+ or Mg2+. The inhibitory effects of heavy metals are not confined to protein kinase C. Heavy metals also inhibit cyclic AMP binding to cyclic AMP-dependent protein kinase and the catalytic activity of that kinase, but in a distinctly different pattern.
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PMID:Inhibition of phorbol ester binding and protein kinase C activity by heavy metals. 249 67

Recently, we reported the characteristic electrical and contractile changes of airway smooth muscle (ASM) preparations after administration of highly purified antiovalbumin immunoglobin G1 (IgG1). Because these changes are comparable to those we observed after administration of several phorbol esters, we theorized that sensitization of ASM with IgG1 leads to the activation of protein kinase-C. Therefore, in this study we examined the effect of two inhibitors of protein kinase-C on the sensitization-induced changes of ASM cells. ASM preparations were obtained from adult male guinea pigs (Camm-Hartley strain). Changes in both the resting membrane potential, as measured by a glass microelectrode technique, and changes in the isometric force, measured by a copper-beryllium strain gauge, were continuously monitored. Experiments were conducted at the optimal length of ASM preparations and a temperature of 37 degrees C. The preparations were pretreated with H-7 (1-(5-isoquinoilinyl-sulfonyl)-2-methyl piperazine) or NA-0345 (N,N-dimethylamino-methyl-SF2370) both protein kinase-C inhibitors, passively sensitized with IgG1 and consequently exposed to a specific antigen. We found that pretreatment inhibited the initial depolarization and the increase in the isometric force, usually observed after administration of IgG1, and that it attenuated ovalbumin-induced depolarization and sustained increase in the isometric force. These effects were concentration-dependent and were observed only when protein kinase-C inhibitors preceded administration of IgG1. Finally, H-7 pretreatment had no effect on KCl- or substance-P-induced physiologic changes but partially attenuated response to histamine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The role of protein kinase-C in sensitization and antigen response of airway smooth muscle. 260 87

Clathrin-coated vesicles purified from bovine brain express protein kinase activity on two principal endogenous vesicle-associated substrates: a 50,000-Mr polypeptide (pp50) and clathrin-associated protein2 (CAP2; the faster-migrating clathrin light chain). Various exogenous substrates, e.g., casein, phosvitin, histone II, and histone III, also are phosphorylated. The pp50 protein kinase activity of clathrin-coated vesicles is not modulated by Ca2+, calmodulin, phosphatidylserine, or cyclic AMP. On the other hand, phosphorylation of the other endogenous substrates requires certain activators, including histone, polylysine, polyarginine, or polyethylenimine. Phosphate incorporation into pp50 was sensitive to divalent cations that inhibit sulfhydryl-dependent enzymes in the following order of potency: Zn2+ greater than Hg2+ greater than Cd2+, Cu2+, and Pb2+. Phosphate incorporation into CAP2 with polylysine present was insensitive to divalent cations. The alkylating agents dithiodinitrobenzene, phenacyl bromide, and N-ethylmaleimide inhibited phosphate incorporation into pp50 up to 90% without affecting incorporation into the other substrates. Vanadium pentoxide inhibited phosphorylation of CAP2 but had a minimal effect on pp50. CAP2 kinase activity was separated from the coated vesicle membrane and from dis-assembled clathrin triskelions, coeluting with the assembly polypeptide complex on a Sepharose 4B column. It retained phosphorylation properties similar to those of intact vesicles. These data imply that clathrin-coated vesicle kinases are elements of the coat proteins and may be involved in the assembly/disassembly of clathrin triskelions or interactions of coated vesicles with other cellular components.
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PMID:Phosphorylation characteristics of brain clathrin-coated vesicle endogenous proteins. 288 97

Histidine-containing protein (HPr) of gram-positive bacteria was found to be phosphorylated at a seryl residue (P-ser-HPr) in an ATP-dependent reaction catalyzed by a protein kinase (J. Deutscher and M. H. Saier, Jr., Proc. Natl. Acad. Sci. U.S.A. 80:6790-6794, 1983). Here we describe the purification and characterization of a soluble enzyme of Streptococcus faecalis which splits the phosphoryl bond in P-ser-HPr. The enzyme has a molecular weight of ca. 7.5 X 10(4), as determined by its migration behavior on a Sephacryl S-200 column. On native polyacrylamide gels the purified enzyme produced only one protein band. On sodium dodecyl sulfate-polyacrylamide gels we found one major protein band of molecular weight 2.9 X 10(4) and two minor protein bands of molecular weights 2.3 X 10(4) and 7 X 10(4). Fructose 1,6-diphosphate, which stimulated the ATP-dependent, protein kinase-catalyzed phosphorylation of HPr, had no effect on the phosphatase activity. Other glycolytic intermediates also had no effect. However, inorganic phosphate, which inhibited the ATP-dependent HPr kinase, stimulated the P-ser-HPr phosphatase. EDTA at a concentration of 0.1 mM completely inhibited the phosphatase. Divalent cations like Mg2+, Mn2+, and Co2+ overcame the inhibition by EDTA. Fe2+, Zn2+, and Cu2+ had no effect, whereas Ca2+ slightly inhibited the phosphatase. ATP was also found to inhibit the phosphatase. Under conditions in which ATP severely inhibited the phosphatase, ADP was found to have no effect on the enzyme activity. Besides P-ser-HPr of S. faecalis, the phosphatase was also able to hydrolyze the phosphoryl bond in P-ser-HPr of Streptococcus lactis, Staphylococcus aureus, Bacillus subtilis, Streptococcus pyogenes, and Lactobacillus casei. Phosphoenolpyruvate-dependent o-nitrophenyl-beta-D-galactopyranoside phosphorylation, catalyzed by the S. aureus phosphoenolpyruvate:lactose phosphotransferase system, was about 150-fold decreased in the presence of P-ser-HPr of S. aureus, as compared with HPr. However, when P-ser-HPr was first incubated with P-ser-HPr phosphatase to allow complete hydrolysis of the phosphoryl bond, it had the same activity as HPr. Besides this cytoplasmic phosphoprotein phosphatase, we detected a membrane-bound phosphatase which also hydrolyzed the phosphoryl bond in P-ser-HPr.
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PMID:Streptococcal phosphoenolpyruvate: sugar phosphotransferase system: purification and characterization of a phosphoprotein phosphatase which hydrolyzes the phosphoryl bond in seryl-phosphorylated histidine-containing protein. 299 39

Neurofilament (NF) protein kinase, partially purified from NF preparations [Toru-Delbauffe & Pierre (1983) FEBS Lett. 162, 230-234], was found to be distinct from both the casein kinase present in NFs and the cyclic AMP-dependent protein kinase which is able to phosphorylate NFs. NF-kinase phosphorylated the three NF protein components. The amount of phosphate incorporated per molecule was higher for NF 200 than for NF 145 and NF 68. Other proteins present in the NF preparations were also used as NF-kinase substrates. Two of them might correspond to the myelin basic proteins with Mr values of 18,000 and 21,000. Four other substrates in the NF preparation were not identified (respective Mr values 53,000, 55,000, 65,000 and greater than 300,000). NF kinase also phosphorylated two additional brain-cell cytoskeletal elements: GFAp and vimentin. Casein, histones and phosvitin, currently used as substrates for protein kinase assays, were very poor phosphate acceptors. Half-maximal NF-kinase activity was obtained at an NF protein concentration of about 0.25 mg/ml in heated, salt-washed, NF preparations. The specific activity was about 5 pmol of 32P incorporated/min per microgram of NF kinase preparation protein. ATP was a phospho-group donor (Km 8 X 10(-5) M), but GTP was not. NF-kinase activity remained stable at 65 degrees C for more than 1 h. The enzyme was not degraded by storage at -20 degrees C for several months in a buffer containing 50% (w/v) sucrose. Maximal activity was obtained with 5 mM-Mg2+ (Mg2+ could be replaced by Co2+); Zn2+ and Cu2+ inhibited the reaction. NF-kinase was not dependent on cyclic AMP, cyclic GMP, Ca2+ or Ca2+ plus dioleoylglycerol and phosphatidylserine.
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PMID:Properties of neurofilament protein kinase. 346 81

Cystic fibrosis has been characterized as a defect in the regulation of cyclic AMP-dependent transepithelial chloride transport. The activation of cyclic AMP-dependent protein kinase A by cyclic AMP occurs normally in cystic fibrosis cells, but they fail to transport chloride ions in response to protein kinase A stimulation. Defective chloride secretion and abnormal electrolyte transport occurs in several organs including the lung, sweat glands, intestine and pancreas. The present work was aimed at exploring whether the same or similar regulatory systems are functional in platelets, and if they are altered or deficient in individuals with cystic fibrosis. Chloride transport in platelets from normal subjects and from cystic fibrosis patients was measured by cell sizing techniques where chloride permeability is the limiting factor. In platelets from healthy volunteers, the chloride channel blocker, 5-nitro-2-(3-phenylpropylamino) benzoic acid, inhibits the transport in a dose-dependent manner. The preservation of chloride transport capability is shown to be dependent upon the presence of either Ca2+ or two divalent cation substitutes, Cd2+ or Cu2+. It is also shown that in normal subjects 0.1 mumol/l prostaglandin E1, which elevates cyclic AMP 6 times and abolishes platelet aggregation, significantly enhances the rate constant of the transport. Furthermore, in five out of nine cystic fibrosis patients studied, platelet chloride transport did not respond to stimulation by prostaglandin E1.
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PMID:Cyclic AMP-related and cation-affected human platelet chloride transport regulation. 757 13

A corticotropin-releasing hormone (CRH) and cAMP-responsive region (-236/-133) in the rat POMC gene promoter previously reported to confer CRH/cAMP responsiveness to heterologous reporter constructs has been characterized. DNAse footprint analysis revealed that multiple elements in this region were bound by nuclear proteins from the POMC expressing AtT20 cells. When these individual DNA elements were separately tested in heterologous reporter constructs for CRH induction, only one element, designated PCRH-RE (POMC CRH responsive element, -171/-160) was found to give strong CRH stimulation (5- to 7-fold). This element appears novel as to the possible binding factors, although it has homology to the mouse metallothionein metal regulatory element. Gel shift analyses of the PCRH-RE with AtT20 cell nuclear extracts showed marked stimulation of retarded nucleoproteins following CRH stimulation, suggesting that the possible binding factor(s) may mediate transcriptional regulation at this site. The activity of PCRH-RE binding protein was inhibited by divalent cations, with Cu2+ and Cd2+ being most effective; Zn2+ had no effect, indicating that this binding factor(s) is functionally distinct from the metallothionein metal regulatory element binding protein. A 2.6 kilobase cDNA clone encoding a protein (PCRH-REB-1) binding to this element was isolated by Southwestern screening of an AtT20 expression library with radiolabeled PCRH-RE oligonucleotides. This clone was used to isolate several other cDNA clones to determine the sequence corresponding to the entire coding region of the protein (PCRH-REB), which proved to be identical to a recently described DNA binding protein of the replication factor C complex, mRFC140/Mouse Southwestern. Primer extension and Northern blot analysis revealed that the size of the full length mRNA is about 4.9 kilobases. PCRH-REB mRNA expression is not restricted to corticotrophs but is present in a broad tissue distribution as evaluated by reverse transcription polymerase chain reaction analysis. A bacterially expressed beta-galactosidase-PCRH-REB-1 fusion protein was shown to bind PCRH-RE efficiently. Furthermore, binding of the PCRH-REB-1 fusion protein to the POMC CRH-responsive element was inhibited by divalent cations with similar sensitivities to those observed using AtT20 nuclear extracts. The predicted PCHR-REB protein sequence presents several interesting motifs: one p-Loop motif (ATP binding site), nine protein kinase A phosphorylation sites (implying a possible role in responding to the CRH-induced cAMP signal), and regions of homology to proteins involved in DNA replication and repair. PCRH-REB is, therefore, a potential transacting factor binding to a major CRH-responsive element in the POMC promoter.
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PMID:Characterization of a corticotropin-releasing hormone-responsive element in the rat proopiomelanocortin gene promoter and molecular cloning of its binding protein. 785 55

A truncated form of the gamma subunit of phosphorylase kinase is inactivated by Cu2+ with the formation of two intra-molecular disulfide bonds. The formation of a disulfide bond between Cys-36 and Cys-172 (semioxidized form) results in approximately 50% loss of specific activity because the Km for MgATP is about 10-fold higher. The second disulfide bond is between Cys-184 and Cys-197 and causes further loss of activity. Eight Cys mutants, i.e. C36S, C36A, C42S, C138S, C172S, C184S, C184A, and C197S, were expressed and purified. Kinetic studies suggest that Cys-36 is important for interaction at the nucleotide site because of its hydrophobicity. With Cys-184 mutants, C184S and C184A, tyrosyl phosphorylation of angiotensin II is affected much more than serine kinase activity. The loss of tyrosine kinase activity is related to a lowered activity with Mn2+. With Mn2+, angiotensin II is a competitive inhibitor with respect to seryl kinase activity of C184S. With Mg2+, however, angiotensin II is a noncompetitive inhibitor. We suggest that metal ions influence the conformation of truncated gamma and that the protein substrate binding region containing Cys-184 is important for the dual specificity of this kinase.
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PMID:Oxidation and site-directed mutagenesis of the sulfhydryl groups of a truncated gamma catalytic subunit of phosphorylase kinase. Functional and structural effects. 792 96


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