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)

1. Modulation of fast and slow Ca2+ channels of frog skeletal muscle by adrenaline (10(-6) to 10(-5) M) and cyclic AMP was investigated using intracellular voltage recordings in intact fibres and a voltage-clamp technique in cut fibres. 2. In tetraethylammonium (TEA), Cl(-)-free Ringer solution, adrenaline increased the maximum rate of rise of Ca2+ spikes by 85% and in a similar solution, peak slow Ca2+ current (ICa,s) by 51%. 3. Application of cyclic AMP to the cut ends of fibres, produced a relative increase of ICa,s of ca. 24%. The effect was maintained for ca. 2 h. 4. Changes in the time course of ICa,s were produced by adrenaline and cyclic AMP: the limiting values of time-to-peak current measured as a function of membrane potential were lower (ca. 41% in adrenaline and ca. 34% in cyclic AMP) than those found in control experiments. Also, ICa,s decayed faster in the presence of adrenaline or cyclic AMP. These changes can be explained by exhaustion of Ca2+ in the lumen of transverse tubular system and do not require the assumption of kinetic variations. 5. Fast Ca2+ currents (ICa,f) which could not be blocked by nifedipine were also recorded. Cyclic AMP greatly increased the amplitude of ICa,f but had no obvious effects on ICa,f kinetics. 6. Application of catalytic subunit of cyclic AMP-dependent protein kinase by diffusion or by pressure injection also increased the amplitude of ICa,s and ICa,f. Pressure injection brought about modifications in the time course of ICa,s that cannot be explained by depletion of Ca2+. 7. Mechanical experiments were performed on single fibres. Nominally Ca2+-free solutions prevented the development and the maintenance of positive inotropic effect of adrenaline on twitch tension. Development of twitch potentiation was dependent upon the frequency of stimulation. Adrenaline was practically ineffective if no stimulation was applied. 8. It is concluded that both populations of Ca2+ channels are modulated by adrenergic stimulation probably via cyclic AMP, and that twitch potentiation may be mediated by a Ca2+ entry through Ca2+ channels.
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PMID:Modulation of calcium channels of twitch skeletal muscle fibres of the frog by adrenaline and cyclic adenosine monophosphate. 245 39

Epinephrine at concentrations approximating circulating levels in resting subjects produced significant desensitization in wild type S49 lymphoma cells after long term treatment. Desensitization by such low levels of catecholamines was measured by examining subsequent responses of the cells to higher agonist concentrations and was quantified by comparing the integral cAMP accumulations with time in naive and epinephrine-treated cells challenged with the higher epinephrine concentrations. The cells were significantly desensitized after 8 hr of treatment with 3 nM epinephrine or 3 nM terbutaline and were essentially maximally refractory after 24 hr. The 3 nM epinephrine treatment resulted in a small right shift of the EC50. Responses to epinephrine were partially restored by incubating desensitized cells for 8 hr or longer in growth medium that was free of epinephrine. The attenuation of cAMP responses was largely specific, in that the decrease in the response to prostaglandin was small and the response to forskolin was unchanged. This, together with small increases in cAMP destruction in cell-free preparations from treated cells, suggested that higher phosphodiesterase activity contributed in a minor way to the desensitization. However, the response of the adenylate cyclase system to epinephrine was dramatically attenuated, and very significant changes in the properties of the beta-adrenergic receptors were also obvious. That is, the number of binding sites for epinephrine was reduced by about 65% while the number of sites for [125I]iodocyanopindolol was unchanged. The affinity for the radioactive ligand was significantly reduced. Wild type S49 cells remained viable after several days of continuous treatment with 3 nM epinephrine or terbutaline but responded to subsequent increases in cellular cAMP levels with the expected growth arrest and cytolysis. Involvement of cAMP-dependent protein kinase in this type of desensitization was suggested by the observation that S49 kincells were not desensitized by long term incubation with 3 nM epinephrine. Further, low concentrations of dibutyryl cAMP mimicked the effect of low level epinephrine treatment. We conclude that circulating levels of epinephrine in intact animals are sufficiently high to cause desensitization in cells with sensitivities to the catecholamines in the same range as that of the S49 lymphoma cell in vitro. We would predict that cells with those characteristics would always be at least partially desensitized in vivo.
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PMID:Growth of S49 cells in low concentrations of beta-adrenergic agonists causes desensitization. 255 Jul 79

The stimulant effects of adrenaline and noradrenaline on contractile force and adenylate cyclase, mediated through beta 1 and beta 2-adrenoceptors, are analysed in isolated atrial and ventricular myocardium of man. The tissues were obtained from patients without advanced heart failure undergoing heart surgery. Usually, both adrenaline and noradrenaline stimulated adenylate cyclase predominantly through ventricular and atrial beta 2-adrenoceptors. Because the relative density of beta 2-adrenoceptors is usually smaller than that of beta 1-adrenoceptors, stimulation of one beta 2-adrenoceptor leads to the production of up to 10 times more cyclic AMP molecules than does stimulation of one beta 1-adrenoceptor. Adrenaline and noradrenaline maximally enhance contractile force through both atrial and ventricular beta 1-adrenoceptors. Adrenaline can also maximally enhance contractile force through atrial beta 2-adrenoceptors. In the ventricle, adrenaline increases force via beta 2-adrenoceptors by up to 60% of its maximal beta 1 response. Noradrenaline can increase atrial and ventricular contractile force through beta 2-adrenoceptors but only at high concentrations. Unexpectedly, in atria from patients treated with the beta 1-selective antagonist atenolol, contractile responses to adrenaline are markedly and selectively augmented through activation of beta 2-adrenoceptors. In atria from atenolol-treated patients equi-inotropic concentrations of adrenaline and noradrenaline acting through beta 2 and beta 1-adrenoceptors, respectively, cause similar increases of cyclic AMP and of cyclic AMP-dependent protein kinase activity.
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PMID:A comparison of the effects of adrenaline and noradrenaline on human heart: the role of beta 1- and beta 2-adrenoceptors in the stimulation of adenylate cyclase and contractile force. 257 19

Adrenaline, cAMP and cAMP-dependent protein kinase modulate the slow inward Ca current by the same basic mechanism, presumably a phosphorylation of membrane proteins. Protein kinase also seems to play a role in the regulation of K outward currents, but not for the transient inward current.
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PMID:Cardiac membrane currents and energetic state. 258 42

Epinephrine was used to activate the heparin non-releasable lipoprotein lipase (LPL) in the 3 skeletal muscle fiber types of the perfused rat hindlimb. Following a 9 min washout of the capillary-bound lipoprotein lipase, the hindquarter of the rat was perfused with a buffer containing 10 nM of epinephrine. Activity of the residual LPL in soleus, red vastus lateralis, and white vastus lateralis muscles increased 75%, 96%, and 102% respectively, following epinephrine perfusion. These results suggest that skeletal muscle LPL is under hormonal control possibly through protein phosphorylation by cyclic AMP dependent protein kinase.
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PMID:Epinephrine-activation of heparin-nonreleasable lipoprotein lipase in 3 skeletal muscle fiber types of the rat. 281 80

We examined the effects of several in vitro experimental systems on the apparent potencies of putative secretagogues for stimulating ACTH release from rat anterior pituitary cells. Cells were prepared by trypsin digestion and gentle mechanical dispersion. Aliquots of the same cell preparations were tested in 1) a microperifusion system immediately after dispersion (day 0), 2) the same microperifusion system after 4 days of static suspension culture on a layer of Sephadex G-10 gel particles (day 4), 3) a static suspension system after 4 days of static suspension culture, and 4) a static monolayer system after 4 days of monolayer culture. Ovine CRF stimulated release of similar amounts of ACTH in all of the systems on days 0 and 4, except in one experiment, in which the response was less on day 4. Arginine vasopressin (AVP), oxytocin, and angiotensin II all appeared to be more potent in day 4 than in day 0 cells in the perifusion system, and the synergism of AVP with ovine CRF was also increased. Dioctanoylglycerol, which directly activates protein kinase-C, and forskolin, which directly activates adenylate cyclase, both stimulated greater release in day 4 cells. The mechanism(s) responsible for the difference in the responses of day 0 and day 4 cells is unknown. Epinephrine had only a small effect in the microperifusion system, but both epinephrine and norepinephrine had potencies comparable to AVP in the static suspension and monolayer systems. This was not due to prolonged exposure to the catecholamines, suggesting that these agents may act on other anterior pituitary cells to release metabolic products that secondarily stimulate the corticotrophs to release ACTH. The same situation appears to be true for atrial natriuretic factor. Gastrin-releasing peptide, its bioactive COOH-terminal half, which was active in a rat urinary bladder smooth muscle assay, its amphibian analog, bombesin, and cholecystokinin (26-33) were devoid of ACTH-releasing activity in all of the systems, in contrast to the findings of others. Since 4-day culture of dispersed cells improved most of their responses and diminished none, we postulate that they may more closely resemble normal pituitary cells in function, and since cellular metabolites are unlikely to accumulate in the interstitial fluid of the pituitary gland, we propose that the secretory functions of cells in perifusion systems may more closely resemble those in the pituitary gland in situ than they do in static incubation systems.
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PMID:Effects of several in vitro systems on the potencies of putative adrenocorticotropin secretagogues on rat anterior pituitary cells. 283 88

The fetal zone (FZ) of the human fetal adrenal gland undergoes rapid growth and exhibits a high rate of steroidogenesis throughout fetal life. In addition to cAMP-dependent processes regulating steroidogenesis and possibly growth of the FZ, evidence is accumulating that cAMP-independent mechanisms are also involved. The purpose of this study was to determine if the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), a potent stimulator of protein kinase-C activity, stimulates steroidogenesis in FZ cells and to characterize protein kinase-C activity in FZ, neocortex zone, and anencephalic adrenal tissues. Adrenal glands were obtained from first and second trimester abortions and two anencephalic fetuses. The FZ was dissected from the neocortex. In some experiments, dispersed FZ cells were incubated in the presence and absence of ACTH and TPA for 3 h. TPA and ACTH stimulated steroidogenesis 2- and 5-fold, respectively. In other experiments, the separated zones and anencephalic adrenal tissues were homogenized, and the homogenates were subjected to DEAE-cellulose column chromatography. A single peak with phospholipid- and calcium-dependent activity was found. Subcellular distribution studies demonstrated greatest activity in the cytosolic fraction. The specific activity of protein kinase-C was significantly greater in FZ than neocortex zone, whether expressed per mg protein or per microgram DNA content. The activity in anencephalic tissue was low. In addition, protein kinase-C (80,000-dalton molecular size protein) was detected in adrenal tissues after electrophoresis and immunoblotting using an antibody directed against protein kinase-C. Greater amounts of protein kinase-C were detected in FZ tissue than in NC or anencephalic adrenal tissue. These results indicate that the lower activities of protein kinase-C in neocortex and anencephalic adrenal tissues were due to low amounts of enzyme rather than inactive enzyme. In summary, TPA-stimulated steroidogenesis in fetal zone cells and fetal zone cells contained greater activity and a greater amount of protein kinase-C than neocortex cells. Minimal activity and enzyme protein were found in anencephalic tissues. These results suggest that cAMP-independent mechanisms may play a role in fetal adrenal steroidogenesis.
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PMID:Protein kinase-C in the human fetal adrenal gland. 284 28

Adrenal cortical cells are known to export cAMP and have binding proteins and cAMP-dependent protein kinase activity associated with their plasma membranes. Because these properties suggest a function for extracellular cAMP, we have undertaken a search for specific cell surface receptors for this cyclic nucleotide. Y-1 mouse adrenal tumor cells actively export cAMP by an energy-dependent process. Analysis of Scatchard plots of the equilibrium binding of [3H]cAMP to these cells indicate the existence of two classes of cAMP binders: one with high affinity (ka = 2.9 X 10(9) M-1) and another with low affinity (ka = 7.0 X 10(7) M-1). The cell surface localization of these binders was established by the sensitivity of both the [3H]cAMP-binding proteins and the [32P]8-N3-cAMP photoaffinity labeled proteins of intact cells to mild trypsin digestion and by the surface distribution of a BSA-O2-monosuccinyl cAMP-gold complex revealed by electron microscopy. Analysis of radioautograms of cell surface cAMP-binding proteins from confluent monolayer tumor cells, photoaffinity labeled with [32P]8-N3-cAMP and subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed two major 32P-labeled protein bands which were indistinguishable from the 49,000 and 55,000 mol wt regulatory subunits of the cytosolic protein kinase isoenzymes of this cell. These observations along with the demonstration of cell surface, cAMP-dependent protein kinase activity in the mouse adrenal tumor cell strongly suggest that these cAMP-binding proteins function as regulatory proteins for cell surface protein kinases.
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PMID:Characterization of cell surface adenosine 3',5'-monophosphate-binding proteins in Y-1 mouse adrenal tumor cells. 298 78

Acute hormonal regulation of liver carbohydrate metabolism mainly involves changes in the cytosolic levels of cAMP and Ca2+. Epinephrine, acting through beta 2-adrenergic receptors, and glucagon activate adenylate cyclase in the liver plasma membrane through a mechanism involving a guanine nucleotide-binding protein that is stimulatory to the enzyme. The resulting accumulation of cAMP leads to activation of cAMP-dependent protein kinase, which, in turn, phosphorylates many intracellular enzymes involved in the regulation of glycogen metabolism, gluconeogenesis, and glycolysis. These are (1) phosphorylase b kinase, which is activated and, in turn, phosphorylates and activates phosphorylase, the rate-limiting enzyme for glycogen breakdown; (2) glycogen synthase, which is inactivated and is rate-controlling for glycogen synthesis; (3) pyruvate kinase, which is inactivated and is an important regulatory enzyme for glycolysis; and (4) the 6-phosphofructo-2-kinase/fructose 2,6-bisphosphatase bifunctional enzyme, phosphorylation of which leads to decreased formation of fructose 2,6-P2, which is an activator of 6-phosphofructo-1-kinase and an inhibitor of fructose 1,6-bisphosphatase, both of which are important regulatory enzymes for glycolysis and gluconeogenesis. In addition to rapid effects of glucagon and beta-adrenergic agonists to increase hepatic glucose output by stimulating glycogenolysis and gluconeogenesis and inhibiting glycogen synthesis and glycolysis, these agents produce longer-term stimulatory effects on gluconeogenesis through altered synthesis of certain enzymes of gluconeogenesis/glycolysis and amino acid metabolism. For example, P-enolpyruvate carboxykinase is induced through an effect at the level of transcription mediated by cAMP-dependent protein kinase. Tyrosine amino-transferase, serine dehydratase, tryptophan oxygenase, and glucokinase are also regulated by cAMP, in part at the level of specific messenger RNA synthesis. The sympathetic nervous system and its neurohumoral agonists epinephrine and norepinephrine also rapidly alter hepatic glycogen metabolism and gluconeogenesis acting through alpha 1-adrenergic receptors. The primary response to these agonists is the phosphodiesterase-mediated breakdown of the plasma membrane polyphosphoinositide phosphatidylinositol 4,5-P2 to inositol 1,4,5-P3 and 1,2-diacylglycerol. This involves a guanine nucleotide-binding protein that is different from those involved in the regulation of adenylate cyclase. Inositol 1,4,5-P3 acts as an intracellular messenger for Ca2+ mobilization by releasing Ca2+ from the endoplasmic reticulum.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanisms of hormonal regulation of hepatic glucose metabolism. 303 41

Phosphofructokinase from rat heart perfused with epinephrine was purified to homogeneity and various allosteric properties were determined under conditions which approximate physiological concentrations of the substrates, effectors, and pH. The molecular weights of the protomer of the enzyme isolated from the hormone-stimulated and the control hearts are both approximately 83,000. The epinephrine-stimulated and the control enzymes contain 1.1 and 0.66 mol of phosphate/mol of protomer, respectively. Both enzymes can be fully phosphorylated by cAMP-dependent protein kinase indicating that the phosphorylation site is new and distinct from the known phosphorylation site of skeletal muscle phosphofructokinase. Pure phosphofructokinase isolated from the epinephrine-stimulated heart is significantly less sensitive to inhibition by ATP and citrate, and the K0.5 values for Fru-6-P (0.18 mM) and Fru-2,6-P2 (3 microM) are one-half those for the enzyme from control hearts. In the presence of in vivo concentrations of ATP, citrate, and Fru-6-P at pH 7.1, both enzymes are inactive in the absence of Fru-2,6-P2. Moreover, the K0.5 values for Fru-2,6-P2 of the hormone-stimulated and untreated enzymes are 3 and 6 microM, respectively. These differences in the allosteric properties of phosphofructokinases from the hormone-treated and the control hearts disappear when the enzymes are dephosphorylated by alkaline phosphatase. Determination of the glycolytic intermediates showed a 2-fold increase in Fru-6-P, Fru-2,6-P2, and AMP and 13-fold increase in Fru-1,6-P2. Partially purified Fru-6-P,2-kinase from epinephrine-stimulated and control hearts show KFru-6-P0.5 = 4 and 15 microM, respectively. These results indicate that rat heart phosphofructokinase in vivo requires Fru-2,6-P2 for its activity. Epinephrine stimulates phosphorylation of phosphofructokinase which results in a more active form. The hormone also increases Fru-2,6-P2 which appears to be the result of an activation of Fru-6-P,2-kinase by a covalent modification.
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PMID:Regulation of phosphofructokinase in perfused rat heart. Requirement for fructose 2,6-bisphosphate and a covalent modification. 316 Jul 3


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