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:2.7.11.11 (AMPK)
12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The protein kinase activities of thyroid plasma membranes were characterized after treatment by the nonionic detergent, Triton X-100. With endogenous substrate the protein kinase activity of intact plasma membranes appeared to be cAMP independent, whereas the solubilized plasma membranes contained a cAMP-dependent protein kinase. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of intact plasma membranes demonstrated approximately 30 protein bands, of which several were substrates for endogenous protein kinase, cAMP had a slight, but reproducible, stimulatory effect on some of these. In solubilized plasma membranes cAMP significantly augmented phosphorylation of at least seven of these proteins. Solubilized plasma membranes bound significantly more cAMP per mg protein than intact plasma membranes. The inability to unequivocally detect cAMP-dependent protein kinase in intact membranes using endogenous substrate probably reflects the much greater activity of the cAMP-independent enzyme activity. The protein kinase activity of intact plasma membranes which was stimulated by cAMP when histone was the substrate was primarily recovered in the solubilized plasma membranes. Most of the protein kinase activity of the intact plasma membranes was insoluble and was not augmented by cAMP. The solubilized protein kinase demonstrated the same Km values for ATP, cAMP, and MgCl2 as did the cytosolic protein kinase of the thyroid. Cytosolic and solubilized protein kinase activities were more sensitive to cAMP and cGMP stimulation when histone and protamine were used as substrates. Both enzyme activities were depressed by protein kinase modulator when histone, but not protamine and casein, were used as substrates. The protein kinase activity of insoluble plasma membranes was not inhibited by the protein kinase modulator.
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PMID:Thyroid plasma membrane-associated protein kinases: properties and substrates of solubilized and insoluble enzymes. 21 87

Two protein kinases active on casein and phosvitin were partially purified from the soluble fraction of ejaculated bovine spermatozoa. They were operationally termed casein kinase A and B based on the order of their elution from a phosphocellulose column. CK-A showed an approximate molecular mass of 38 kDa, and it phosphorylated serine residues of casein and phosvitin utilizing ATP as a phosphate donor (Km 19 microM). Enzyme activity was maximal in the presence of 10 mM MgCl2, whereas it decreased in the presence of spermine, polylysine, quercetin, and NaCl (20-250 mM). CK-B seemed to have a monomeric structure of about 41 kDa; it underwent autophosphorylation and cross-reacted with polyclonal antibodies raised against recombinant alpha, but not beta, subunit of human type 2 casein kinase. It phosphorylated both serine and threonine residues of casein and phosvitin, utilizing ATP (Km 12 microM) but not GTP as a phosphate donor. Threonine was more affected in the phosphorylated phosvitin than in the partially dephosphorylated substrate. CK-B was active toward the synthetic peptide Ser-(Glu)5 and calmodulin (in the latter case, in the presence of polylysine), and it was activated by spermine, polylysine, MgCl2 (30 mM), and NaCl (20-400 mM). The activity of the enzymes was not affected by cAMP, or the heat-stable inhibitor of the cAMP-dependent protein kinase, or calcium.
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PMID:Purification and characterization of two casein kinases from ejaculated bovine spermatozoa. 129 85

The molecular basis of opioid receptor mechanisms was studied in reconstitution experiments using purified or membrane-bound opioid receptors and purified GTP-binding proteins (G-proteins). mu-Opioid receptor exclusively purified from rat brains was reconstituted with G-proteins in lipid vesicles. The mu-agonist stimulated the G-protein activity in both G1 or Go-reconstituted vesicles. The stoichiometry revealed that one molecule of mu-receptor is functionally coupled to plural numbers of Gi or Go molecules and that mu-receptor exists in at least two different subtypes, mu i and mu o, separately coupled to Gi and Go, respectively. In addition, when the mu-receptor was phosphorylated by cAMP-dependent protein kinase, the mu-agonist-stimulation of G-protein activity disappeared, while the guanine nucleotide-sensitivity of agonist binding was unchanged. These findings suggest that there are independent domains in the receptor which are related to functional coupling to G-protein and to the agonist-binding modulation by G-protein. kappa-Opioid receptor agonist inhibited the G-protein activity in guinea pig cerebellar membranes. Further experiments revealed that the kappa-opioid receptor is functionally coupled to an inhibition of phospholipase C activity via an inhibition of Gi-activity. Such a receptor-mediated inhibition of G-protein activity may be the first demonstration of a signal transduction mechanism. The delta-opioid receptor agonist showed no effect on G-protein activity in guinea pig striatal and rat cortical membranes, while it stimulated it in NG108-15 cells. In all these membranes, the delta-agonist binding was markedly reduced by GTP gamma S in the presence of MgCl2. These findings suggest that delta-receptors in the brain might be coupled to G-protein without signal transduction.
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PMID:[Molecular pharmacology of opioid receptor mechanisms]. 255 62

Monoclonal antibodies have been raised against canine phospholamban purified by sodium dodecyl sulfate - polyacrylamide gel electrophoresis (SDS-PAGE). Four of twenty-four antibodies were purified to close to homogeneity from mouse ascites. All four antibodies could react with isolated bovine cardiac sarcoplasmic reticulum (SR) to result in the stimulation of ATP-dependent Ca2+ pump activity and blocking of phospholamban phosphorylation by cAMP-dependent protein kinase. Relative efficiencies of antibodies in Ca2+ pump stimulation and on phospholamban phosphorylation were not correlated. An immunoabsorbent prepared by conjugating antibody Al to Affi-Gel 10 was used for the purification of phospholamban. Isolated bovine cardiac SR was solubilized in a buffer containing deoxycholate and the soluble fraction was applied to the immunoaffinity column. After washing the column with a series of detergent-containing buffer solutions, the column-bound protein which contained essentially pure phospholamban was eluted by a buffer containing 2.8 M MgCl2. The phospholamban recovery from the immunoaffinity column was close to 100%; the overall yield of purification from SR vesicles was about 70%. SDS-PAGE analysis showed that purified phospholamban consisted of a 25 and 5 kilodalton (kDa) protein species. Upon brief boiling (20 s) of the sample in SDS-PAGE sample buffer, five molecular species ranging from 5 to 25 kDa could be detected by immunotransblotting following SDS-PAGE. This observation supports the notion that phospholamban is composed of five 5-kDa polypeptides. The pure phospholamban could be phosphorylated maximally by cAMP-dependent protein kinase to 1-1.5 mol phosphate/mol phospholamban (25,000 g). This stoichiometry of phosphorylation could be increased to about 5 upon addition of the immunoaffinity column flow through fraction.
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PMID:Rapid purification of phospholamban by monoclonal antibody immunoaffinity chromatography. 295 97

Under the total blockade of PDE1 and the presence of endogeneous ATP and MgCl2, the inhibitory effect of cAMP on HD activity could be demonstrated as low as 8.7 X 10(-8) M concentration in a 20,000 g supernatant of a sustained homogenate of rat hypothalamus. A total reverse of this action and also a partial release of the cAMP-induced inhibition of HD, occurred at higher concentrations of cAMP, and ATP could be achieved by an endogeneous inhibitor of cAMP-dependent protein kinase or by cyclic GMP. The reversal of cAMP action by PKI seems to serve a strong evidence for the role of cAMP-dependent protein kinase (EC 2.7.37: ATP-protein phosphotransferase) in this action and emphasized the involvement of a direct or an indirect phosphorylation in the regulation of HD activity. The stimulatory effect of cyclic GMP on cAMP-induced inhibition of HD or its 'direct' effect on histamine formation is asserted, probably through the activation of PDE, or through independent stimulatory machinery, coupled to the cyclic GMP system.
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PMID:Evidence for the role of cAMP-dependent protein kinase in the down-regulation of hypothalamic HD: reversal of cAMP-(ATP) induced inhibition of HD activity by the 'Walsh' inhibitor of cAMP-dependent protein kinase and by cyclic GMP. 299 Jan 78

The retinal cones of teleost fish contract at dawn and elongate at dusk. We have previously reported that we can selectively induce detergent-lysed models of cones to undergo either reactivated contraction or reactivated elongation, with rates and morphology comparable to those observed in vivo. Reactivated contraction is ATP dependent, activated by Ca2+, and inhibited by cAMP. In addition, reactivated cone contraction exhibits several properties that suggest that myosin phosphorylation plays a role in mediating Ca2+-activation (Porrello, K., and B. Burnside, 1984, J. Cell Biol., 98:2230-2238). We report here that lysed cone models can be induced to contract in the absence of Ca2+ by incubation with trypsin-digested, unregulated myosin light chain kinase (MLCK) obtained from smooth muscle. This observation provides further evidence that MLCK plays a role in regulating cone contraction. We also report here that lysed cone models can be induced to contract in the absence of Ca2+ by incubation with high concentrations of MgCl2 (10-20 mM). Mg2+-induced reactivated contraction is supported by inosine triphosphate (ITP) just as well as by ATP. Because ITP will not serve as a substrate for MLCK, this finding suggests that Mg2+-activation of contraction does not require myosin phosphorylation. Although Ca2+-induced contraction is completely blocked by cAMP at concentrations less than 10 microM, cAMP has no effect on cone contraction activated by unregulated MLCK or by high Mg2+ in the absence of Ca2+. Because trypsin digestion of MLCK cleaves off not only the Ca2+/calmodulin-binding site but also the site phosphorylated by cAMP-dependent protein kinase, and because Mg2+ activation of cone contraction circumvents MLCK action altogether, both these observations would be expected if cAMP inhibits reactivated cone contraction by catalyzing the phosphorylation of MLCK and thus reducing its affinity for Ca2+, as has been described for smooth muscle. Together our results suggest that in lysed cone models, myosin phosphorylation is sufficient for activating cone contraction, even in the absence of other Ca2+-mediated events, that cAMP inhibition of contraction is mediated by cAMP-dependent phosphorylation of MLCK, and that 10-20 mM Mg2+ can activate actin-myosin interaction to produce contraction in the absence of myosin phosphorylation.
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PMID:Calcium-independent contraction in lysed cell models of teleost retinal cones: activation by unregulated myosin light chain kinase or high magnesium and loss of cAMP inhibition. 303 26

Drug-resistant cell lines derived from the mouse macrophage-like cell line J774.2 express the multidrug resistance phenotype which includes the overexpression of a membrane glycoprotein (130-140 kilodaltons). Phosphorylation of this resistant-specific glycoprotein (P-glycoprotein) in intact cells and in cell-free membrane fractions has been studied. The phosphorylated glycoprotein can be immunoprecipitated by a rabbit polyclonal antibody specific for the glycoprotein. Phosphorylation studies done with partially purified membrane fractions derived from colchicine-resistant cells indicated that (a) phosphorylation of the glycoprotein in 1 mM MgCl2 was enhanced a minimum of 2-fold by 10 microM cAMP and (b) the purified catalytic subunit of the cAMP-dependent protein kinase (protein kinase A) phosphorylated partially purified glycoprotein that was not phosphorylated by [gamma-32P]ATP alone, suggesting that autophosphorylation was not involved. These results indicate that the glycoprotein is a phosphoprotein and that at least one of the kinases responsible for its phosphorylation is a membrane-associated protein kinase A. The state of phosphorylation of the glycoprotein, which is a major component of the multidrug resistance phenotype, may be related to the role of the glycoprotein in maintaining drug resistance.
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PMID:Phosphorylation of the multidrug resistance associated glycoprotein. 342 52

Interaction of cGMP-dependent protein kinase with histones H2A, H2B, H3, and H4, or poly(L-arginine) resulted in changes in enzyme conformation such that inactivation of cGMP binding and activation of basal catalytic activity (assayed without cGMP) occurred. Total kinase activity as determined by phosphorylation of exogenous substrates subsequently decreased, but autophosphorylation of the enzyme was enhanced. The reaction was specific for nucleosome core histones and poly(L-arginine); H1, troponin, and poly(L-lysine) had no effect. Inactivation of cyclic nucleotide binding sites followed pseudo-first order kinetics and, at various histone concentrations, exhibited saturation kinetics at low ionic strength (2 mM potassium phosphate, pH 6.8), but non-saturation kinetics at higher ionic strength (37.5 mM potassium phosphate, pH 6.8, 12.5 mM MgCl2). Saturation kinetics was observed with poly(L-arginine) at both low and high ionic strength. Kinetic parameters measured under saturation conditions were determined for each core histone and poly(L-arginine). Core histones and poly(L-arginine) were noncompetitive inhibitors of cGMP binding; core histones and poly(L-arginine) interacted competitively at an enzyme site designated as the poly(L-arginine) binding site. Regulatory subunits of cAMP-dependent protein kinase contain a similar poly(L-arginine) binding site. Modulator proteins bind to poly(L-arginine) or arginyl residues in histone to prevent interaction with the poly(L-arginine) binding site on the enzymes. Through this mechanism, modulator proteins maintain cyclic nucleotide dependency and full enzyme activity.
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PMID:Regulation of cyclic nucleotide-dependent protein kinase activity by histones and poly(L-arginine). 625 84

Protein kinase [EC 2.7.1.37] of human erythrocyte membranes was solubilized with 0.5 M NaCl in 5 mM phosphate buffer, pH 6.7 at 4 degrees C and purified on a CM-Sephadex C-50 column, followed by affinity chromatography on a histone-Sepharose 4B column. The purified protein kinase gave a single band (molecular weight; 41,000) on examination by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The optimum pH of the enzyme was 8.0 and a millimolar range of concentration of Mg2+ was required for its maximum activity. Histone and protamine were well phosphorylated by the protein kinase but casein and phosvitin were poor phosphate acceptors for the enzyme. The enzymic activity was not stimulated by cyclic AMP (cAMP). A cAMP-finding protein from human erythrocyte membranes inhibited the activity of the protein kinase, but the activity was restored with cAMP. A heat stable protein inhibitor from rabbit skeletal muscle also inhibited this enzyme. From these observations, this protein kinase seemed to be a catalytic subunit of the membrane bound cAMP-dependent protein kinase. This enzyme was strongly inhibited with Ca2+ in the presence of 1 mM MgCl2. Various sulfhydryl reagents and polyamines also had inhibitory activity on the protein kinase. Natural substrates of the enzyme were investigated using heat treated membranes and 0.5 M NaCl extracted membrane residues. Band 4.1, 4.2, and 4.5 proteins were phosphorylated but band 2 (spectrin) and band 3 proteins were poor substrates for this protein kinase.
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PMID:Purification and characterization of a catalytic subunit of an adenosine 3':5'-monophosphate-dependent protein kinase from human erythrocyte membranes. 626 Jul 58

The rates of glycolysis and glycogenolysis an the rate of lactate formation from glucoso-6-phosphate (G-6-Ph) in the liver were reduced during stress (starvation). On the contrary, these activities in the adrenals were increased. The rates of lactate formation from fructose diphosphate remained unchanged in both organs. The results obtained attest to the inhibition in the liver and activation in the adrenals of phosphorylase, hexokinase and phosphofructokinase. The degree of hexokinase inhibition in the liver depended on the presence of cAMP, ATP and MgCl2 in the incubation medium and was a consequence of enzymatic phosphorylation. Unlike 2', 3'-AMP, the inhibitory effect of CAMP was highly specific. The protein inhibitor of protein kinase completely reversed the inhibitory effect of cAMP on hexokinase. In the adrenals, cAMP slightly increased the rates of glycolysis and lactate formation from G-6-Ph because of allosteric effects of cAMP. The activation rather than inhibition of glycolysis in the adrenals during stress is probably caused by the absence in this tissue of cAMP-dependent protein kinase which phosphorylates hexokinase.
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PMID:[Effect of cAMP of glycolysis and glycogenolysis in the liver and adrenals of white rats]. 627 Dec 95


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