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)

Using the flask-incubated fat cell system, effects of isoproterenol and forskolin on glycerol release, cyclic AMP levels and protein kinase were studied. Isoproterenol increased cyclic AMP levels, protein kinase activity and glycerol release over the same concentration range (10(-9) M to 10(-6) M). Forskolin also increased all three variables in a concentration-dependent manner (10(-7) M to 10(-4) M). The maximum response for each variable was significantly greater with forskolin than with isoproterenol. A combination of isoproterenol and forskolin resulted in an additional increase in cyclic AMP over forskolin alone, but no significant increase in protein kinase activity or glycerol release. These results support the concepts that the maximum lipolytic response to isoproterenol is limited by the accumulation of cyclic AMP and the maximum lipolytic response to forskolin is limited by some step distal to cyclic AMP production, possibly activation of protein kinase. At high concentrations of forskolin or with a combination of forskolin and isoproterenol, cyclic AMP levels were in excess of those needed to maximally activate protein kinase and lipolysis.
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PMID:Rate-limiting steps in isoproterenol and forskolin stimulated lipolysis. 298 38

In some systems, such as the turkey erythrocyte, agonist-promoted phosphorylation of the beta-adrenergic receptor appears to be associated with desensitization of the adenylate cyclase system. This process can be partially mimicked by cyclic AMP analogs. Accordingly, we have investigated the phosphorylation of the pure mammalian beta-adrenergic receptor by the pure catalytic subunit of the cyclic AMP-dependent protein kinase. The beta-adrenergic receptor, purified from hamster lung to apparent homogeneity, contains a single polypeptide of Mr approximately 64,000. The receptor can be phosphorylated in vitro by the catalytic subunit of cyclic AMP-dependent protein kinase (approximately 2 mol of phosphate (on serine residues) per mol). Isoproterenol, a beta-agonist, promoted a 2-3-fold increase in the rate of receptor phosphorylation which was blocked by the beta-antagonists propranolol and alprenolol. High performance liquid chromatographic tryptic peptide mapping reveals two major phosphorylation sites. Phosphorylated receptor can be completely dephosphorylated by a high molecular weight phosphoprotein phosphatase. The rate of receptor dephosphorylation is enhanced 2-3-fold by isoproterenol and this effect is blocked by alprenolol. The functional significance of receptor phosphorylation was examined using ligand binding and reconstitution techniques. While the binding of isoproterenol and alprenolol to the receptor was unaffected by phosphorylation, the ability of the receptor to interact with the stimulatory guanine nucleotide regulatory protein, as assessed by isoproterenol-promoted GTPase activity, was decreased 24 +/- 1% (mean +/- S.E., p less than 0.001, n = 17). The quantitative extent of receptor phosphorylation and functional impairment are virtually identical to those previously observed when intact turkey erythrocytes were incubated with cyclic AMP. These data provide a direct demonstration of regulation of the function of the isolated beta-adrenergic receptor by cyclic AMP-dependent protein kinase.
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PMID:Phosphorylation of the mammalian beta-adrenergic receptor by cyclic AMP-dependent protein kinase. Regulation of the rate of receptor phosphorylation and dephosphorylation by agonist occupancy and effects on coupling of the receptor to the stimulatory guanine nucleotide regulatory protein. 298 43

We have reported that the divalent cation ionophore A23187, like the beta-adrenergic agonist isoproterenol, increased the force of contraction and rate of relaxation and shortened the duration of contraction of papillary muscles isolated from guinea pigs. A23187 produced a fall in resting tension and decreased the contracture tension of K +/- depolarized muscles, as did isoproterenol. In the present studies, isoproterenol produced a concentration-dependent, rapid, and sustained increase in the cyclic AMP (cAMP) content of papillary muscle. In contrast, A23187 had no detectable effect on cAMP levels, even in the presence of the phosphodiesterase inhibitor, papaverine. Neither drug, at concentrations maximal for contractile effects, altered cyclic GMP (cGMP). Isoproterenol increased the cAMP-dependent protein kinase activity ratio, whereas A23187 did not change the activity of this enzyme. However, both A23187 and isoproterenol produced a concentration-dependent increase in phosphorylase activity. Concentrations of A23187 or isoproterenol that enhanced contractility maximally increased the alkali-labile phosphate (by ca. 35%) but were without effect on the acid-labile, alkali-stable phosphate in the total acid precipitable protein. Contractile effects of isoproterenol, which reflect activated Ca2+ uptake, and the increase in phosphorylase activity produced by this agent are believed to be due to an increase in cAMP with subsequent activation of cAMP-dependent protein kinases and phosphorylation of proteins. A23187 may produce similar contractile effects without an increase in cAMP or cAMP-dependent protein kinase activity by activating other protein kinases and/or inhibiting phosphoprotein phosphatases, most likely by its effects on intracellular calcium.
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PMID:Biochemical changes accompanying enhanced cardiac contractility by ionophore A23187. 300 Jan 97

Rat adipocytes were incubated with [32P]phosphate to label glycogen synthase, which was rapidly immunoprecipitated from cellular extracts and cleaved using either CNBr or trypsin. All of the [32P]phosphate in synthase was recovered in two CNBr fragments, denoted CB-1 and CB-2. Isoproterenol (1 microM) rapidly decreased the synthase activity ratio (-glucose-6-P/+glucose-6-P) and stimulated the phosphorylation of both CB-1 and CB-2 by approximately 30%. Insulin opposed the decrease in activity ratio and blocked the stimulation of phosphorylation by isoproterenol. Incubating cells with insulin alone changed the 32P content of neither CB-1 nor CB-2. Trypsin fragments were separated by reverse phase liquid chromatography and divided into peak fractions, denoted F-I-F-VII in order of increasing hydrophobicity. F-V contained almost half of the [32P]phosphate and was phosphorylated when synthase was immunoprecipitated from unlabeled fat cells and incubated with [gamma-32P]ATP and the cAMP-independent protein kinase, FA/GSK-3. That F-V also had the same retention time as the skeletal muscle synthase fragment containing sites 3(a + b + c) suggests that it contains sites 3. Muscle sites 1a, 5, 1b, and 2 eluted with F-I, F-II, F-VI, and F-VII, respectively. F-V was increased approximately 25% by isoproterenol, but the largest relative increases were observed in F-I (4-fold), F-III (4-fold), and F-VI (2-fold). These results indicate that beta-adrenergic receptor activation results in increased phosphorylation of multiple sites on glycogen synthase. Insulin plus glucose decreased the overall 32P content of synthase by approximately 30%, with the largest decrease (40%) occurring in F-V. Without glucose, insulin decreased the [32P]phosphate in F-V by 17%, an effect which was balanced by increases in F-I, F-II, and F-III so that no net change in the total 32P contents of the fractions was observed. Thus, activation of glycogen synthase by the glucose transport-independent pathway seems to involve a redistribution of phosphate in the synthase subunit.
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PMID:Control of glycogen synthase by insulin and isoproterenol in rat adipocytes. Changes in the distribution of phosphate in the synthase subunit in response to insulin and beta-adrenergic receptor activation. 300 Oct 75

The effect of repeated electroconvulsive shocks (ECS) on the responsiveness to isoprenaline of an endogenous, specific inhibitor of cAMP-dependent protein kinase (type I inhibitor) was tested in rat hippocampus and brainstem. Isoprenaline produced a dose-dependent decrease in the type I inhibitor activity in these brain structures. Neither the basal activity nor the isoprenaline-induced changes of type I inhibitor activity were affected by a single ECS. However, a series of 11 ECS markedly reduced the response of the type I inhibitor activity to isoprenaline. The action of isoprenaline was completely blocked by propranolol and markedly enhanced by aminophylline. The results indicate that the subsensitivity of beta-adrenoceptors is accompanied by reduced responsiveness of type I inhibitor activity to isoprenaline.
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PMID:Effect of repeated electroconvulsive shocks on isoprenaline-induced changes of the endogenous inhibitor of cAMP-dependent protein kinase in rat brain. 301 14

The role of cyclic AMP (cAMP) in the control of vascular smooth muscle tension was examined by comparing the effects of prostacyclin (PGI2) on tension and cAMP levels in helical strips of bovine coronary arteries and in rabbit aortic rings, both denuded of endothelium. In bovine coronary arteries, PGI2 elevated cAMP levels and relaxed the muscles. The PGI2-induced cAMP elevation preceded the relaxation and both parameters were altered in a dose-dependent manner by increasing concentrations of PGI2 (0.3, 3 and 30 microM). These results are consistent with a role for cAMP as a mediator of vascular smooth muscle relaxation. Cyclic AMP levels were also elevated by PGI2 in a concentration- and time-dependent manner in rabbit aortic rings. However, in direct contrast to the results in the bovine coronary arteries, PGI2-induced elevation of cAMP in the aortic rings was accompanied by contraction rather than relaxation. Isoproterenol, a drug which is generally believed to relax smooth muscles by virtue of its ability to increase tissue levels of cAMP, relaxed PGI2-contracted aortic rings with no further elevation of cAMP beyond that caused by the PGI2 alone. These results demonstrate that cAMP elevation and relaxation of vascular smooth muscle are not always well correlated. It is possible that some form of functional compartmentalization of cAMP or cAMP-dependent protein kinase exists in these tissues.
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PMID:Elevation of cyclic AMP by prostacyclin is accompanied by relaxation of bovine coronary arteries and contraction of rabbit aortic rings. 301 39

We examined the relationships between the relaxation mediated by beta-adrenoceptor and either the associated cyclic AMP production or the activation of cyclic AMP-dependent protein kinase (A-PK) in canine saphenous and portal veins. In the saphenous vein constricted with methoxamine, isoproterenol caused concentration-dependent relaxation (maximum relaxation 92.7%), and concomitant increases in cyclic AMP and A-PK activity ratio (from 52.8 to 73.5%). The portal vein was only slightly relaxed by isoproterenol (14.7% in the longitudinal strips) after constriction with methoxamine, while cyclic AMP and A-PK activation increased significantly. Isoproterenol markedly activated A-PK of the portal vein after KCl constriction (from 52.6 to 74.6%) but the maximum relaxation was only slight (13.3%). The portal vein also showed a smaller relaxation response to either forskolin or dibutyryl cyclic AMP than the saphenous vein. These results indicated that the relationship between the relaxation response to isoproterenol and either cyclic AMP production or A-PK activation was different in the saphenous and portal veins.
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PMID:Different types of relationship between beta-adrenergic relaxation and activation of cyclic AMP-dependent protein kinase in canine saphenous and portal veins. 302 93

Myosin light chain phosphorylation in intact rat thoracic aorta was elevated during contraction induced by 0.3 microM norepinephrine, but was not maintained. Addition of 0.5 microM sodium nitroprusside to norepinephrine treated rat aorta strips led to elevation of cyclic GMP levels, relaxation of tension, and dephosphorylation of myosin light chain. Depletion of extracellular calcium or addition of calmodulin antagonists trifluoperazine and W7 diminished the contraction and phosphorylation of myosin light chain by norepinephrine, but did not prevent dephosphorylation by sodium nitroprusside or the elevated levels of cyclic GMP. Isoproterenol, 8-bromo cyclic GMP, and dibutyryl cyclic AMP all caused dephosphorylation of myosin light chain and induced relaxation during the period of development of tone. Eight other proteins had increased phosphorylation following norepinephrine treatment and one protein had less phosphorylation. The different proteins phosphorylated by norepinephrine showed varying degrees of sensitivity to Ca2+-free solution and to the calmodulin antagonists. The pattern of protein phosphorylation caused by sodium nitroprusside was best mimicked by 8-bromo cyclic GMP, rather than isoproterenol and dibutyryl cyclic AMP. These proteins were, generally, unaffected by Ca2+-free solution and the calmodulin antagonists. The present observations support the hypothesis that vasodilators inhibit tone development through myosin light chain dephosphorylation. Furthermore, the nitrovasodilators act through elevation of cyclic GMP and phosphorylation of proteins by cyclic GMP-dependent protein kinase.
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PMID:Myosin light chain phosphorylation in contraction and relaxation of intact rat thoracic aorta. 302 31

Adipocytes from spontaneously hypertensive rats demonstrated a blunted lipolytic response to isoproterenol and dibutyryl cyclic AMP. (-)-[3H]Dihydroalprenolol binding was examined in adipocytes from normotensive and spontaneously hypertensive rats. Increasing concentrations of isoproterenol decreased total (-)-[3H]dihydroalprenolol binding to intact cells from normotensive rats, and the efficacy of competition was decreased in adipocytes from spontaneously hypertensive rats. Scatchard analysis indicated that the number of (-)-[3H]dihydroalprenolol binding sites and the affinity of dihydroalprenolol binding were comparable between normotensive and spontaneously hypertensive rats. Isoproterenol- and Gpp(NH)p-stimulated adenylate cyclase activity was consistently depressed in adipocyte membranes from spontaneously hypertensive rats as compared to normotensive rats. No difference in fluoride-stimulated adenylate cyclase activity was observed. The blunted lipolytic and cyclic AMP response to isoproterenol in these cells suggest a postreceptor lesion of the lipolytic pathway (possibly the guanine nucleotide regulatory protein) in adipocytes from spontaneously hypertensive rats. The blunted lipolytic response to dibutyryl cyclic AMP suggests defective regulation of lipolytic enzymes at the protein kinase-hormone-sensitive lipase level.
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PMID:Lipolysis and beta-adrenergic receptor binding on adipocytes of spontaneously hypertensive rats. 303 23

The cardiotonic drugs AR-L57 [2-(2,4-dimethoxyphenyl)-1H-imidazo(4,5b)-pyridine] and isoproterenol stimulated contractility in cultured heart cells in concentration-dependent manners; only the effects of isoproterenol were blocked by propranolol. Isoproterenol, but not AR-L57, enhanced the phosphorylation state of seven protein bands [relative molecular weights (MrS) 155,000, 96,000, 27,000, 24,000, 20,000, 16,000, 12,000] and resulted in the dephosphorylation of one protein band (Mr 21,000). Also, only isoproterenol increased the activation states of adenosine 3',5'-cyclic monophosphate (cAMP)-dependent protein kinase and glycogen phosphorylase. The eight protein bands resolved by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis and detected by autoradiography were altered by isoproterenol in time- and concentration-dependent manners. The 24,000-Mr protein substrate phosphorylated in response to isoproterenol was converted to a 12,000-Mr species by heating in the presence of SDS prior to electrophoresis, suggesting that the two substrates were in fact identical proteins. A comparison of the 2-min responses to varying concentrations of isoproterenol resulted in excellent correlations between the phosphorylation states of individual protein bands and contractility. This was true even for the 21,000-Mr species that was dephosphorylated. However, only the 27,000-, 24-12,000-, and 16,000-Mr substrates were phosphorylated rapidly enough to be associated with the onset of the inotropic response. Cultured myocytes are an important feature of these studies as they are 84% pure ventricular cells that remain 100% viable throughout an experiment. Because this system is suitable for biochemical measurements and the effects of agents on heart cell contractility can be determined, it is possible to correlate changes in biochemical parameters with alterations in physiological state.
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PMID:Contractility and protein phosphorylation in cardiomyocytes: effects of isoproterenol and AR-L57. 608 83


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