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. Protein kinase activity was measured in islets of Langerhans that had been incubated in the presence of agents known to affect insulin release. 2. Glucagon, theophylline, caffeine and 3-isobutyl-1-methylxanthine, agents that raise cyclic AMP concentrations in islet cells and stimulate insulin release, increased protein kinase activity. Adrenaline and diazoxide, agents that decrease cyclic AMP concentrations and inhibit insulin secretion, decreased the activity. 3. The increase in protein kinase activity produced by different concentrations of 3-isobutyl-1-methylxanthine was apparently related to the increase in intracellular concentrations of cyclic AMP. 4. The sulphonylureas, tolbutamide and glibenclamide, agents that increase insulin release, also increased the protein kinase activity; however, leucine, arginine and xylitol, which also stimulate insulin release, were without effect on the kinase activity. 5. Increasing the glucose concentration of the incubation medium from 2 to 20mm had no effect on protein kinase activity. Further, the ability of 3-isobutyl-1-methylxanthine to increase the protein kinase activity was not affected by the glucose concentration of the incubation medium. 6. These results suggest that agents which affect insulin secretion by altering cyclic AMP concentrations may exert their effects on hormone release by altering the activity of a cyclic AMP-dependent protein kinase in islet cells.
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PMID:The mode of action of adenosine 3':5'-cyclic monophosphate in mammalian islets of Langerhans. Effects of insulin secretagogues on islet-cell protein kinase activity. 435 86

Adrenalectomy causes a depressed glycogenolytic response to catecholamines in myocardium. Total phosphorylase activity (a + b) is 20% lower in isolated, perfused hearts from adrenalectomized (ADX) rats compared with hearts from sham-operated (sham) rats even though the basal activity ratios (-AMP/+AMP) do not differ. In response to epinephrine (50 nM), the sham group has a higher activity ratio than the ADX group (0.23 vs. 0.16); the difference in specific activities of phosphorylase a in the two groups is even greater, 87 versus 49 U/mg protein. The glycogen content of the heart is 30% lower in the ADX group. Adrenalectomy does not alter the accumulation of cAMP and activation of cAMP-dependent protein kinase caused by epinephrine. Although rat heart contains a heat-stable phosphatase inhibitor, the activity of this inhibitor, as judged by phosphorylase phosphatase activity, is not altered by epinephrine stimulation or by adrenalectomy. Epinephrine perfusion increases the activity ratios (pH 6.8:8.2) of phosphorylase kinase equally in sham and ADX hearts; however, the specific activities of phosphorylase kinase (basal and hormone-stimulated) at either pH are lower after adrenalectomy. The sensitivity of phosphorylase kinase activity to stimulation by calcium is the same in the sham and ADX groups. A radioimmunoassay for phosphorylase kinase detects 10% less of this enzyme in hearts from adrenalectomized animals. Specific activities at pH 6.8 and 8.2 based on the quantity of phosphorylase kinase detected by radioimmunoassay suggest a lower phosphorylation state in the ADX group. Decreases in quantities of phosphorylase and phosphorylase kinase and enzyme dissociation due to glycogen depletion could all contribute to a depressed glycogenolytic response in the ADX group.
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PMID:Effects of adrenalectomy on activation of glycogen phosphorylase in rat myocardium. 608 85

32P-labeled acetyl-CoA carboxylase was isolated from 32P-labeled rat epididymal fat pads by avidin-Sepharose affinity chromatography after exposure to epinephrine and insulin. Epinephrine led to an inactivation of the isolated enzyme by a reduction of Vmax, while the insulin stimulation observed in crude extracts did not survive enzyme purification. Both insulin and epinephrine caused only small increases in total 32P content of the enzyme. However, mapping of tryptic 32P-phosphopeptides by high performance liquid chromatography revealed that epinephrine and insulin stimulated the phosphorylation of 32P-peptides specific for each hormone. The major 32P-peptide phosphorylated by epinephrine co-migrated with the major 32P-peptide phosphorylated in vitro by the cAMP-dependent protein kinase, while the 32P-peptide phosphorylated in response to insulin co-migrated with that phosphorylated by casein kinase-I and casein kinase-II. The effects of epinephrine on carboxylase activity and phosphorylation can thus be accounted for by the expected epinephrine-induced activation of the cAMP-dependent protein kinase. While the increase in site-specific phosphorylation caused by insulin cannot be directly linked to insulin-induced activation in crude extracts, these data suggest that casein kinase-I and/or casein kinase-II may mediate the insulin-stimulated phosphorylation of acetyl-CoA carboxylase.
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PMID:Stimulation of site-specific phosphorylation of acetyl coenzyme A carboxylase by insulin and epinephrine. 613 73

1. Adrenaline has a biphasic effect on intracellular lipoprotein lipase activity and on endogenous triacylglycerol content in heparin-perfused heart. 2. A high concentration of adrenaline (1 microM in the perfusion buffer) activated endogenous lipoprotein lipase activity and, at the same time, decreased intracellular triacylglycerol stores. 3. In contrast, a low concentration (0.005 microM-adrenaline) inhibited intracellular lipoprotein lipase activity. Under these conditions, cardiac triacylglycerol content was elevated above control values. 4. Perfusing the heart with high and low concentrations of 3-isobutyl-1-methylxanthine elicited a biphasic effect on endogenous lipoprotein lipase activity and triacylglycerol content similar to that seen with adrenaline treatment. 5. The effect of adrenaline on intracellular lipoprotein lipase activity appears to be mediated by cyclic AMP through protein kinase. 6. A possible role for intracellular lipoprotein lipase in the regulation of endogenous triacylglycerol in rat heart is proposed.
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PMID:Possible role of lipoprotein lipase in the regulation of endogenous triacylglycerols in the rat heart. 617 39

Epidermal cells contain 4 separate surface receptors which are linked to adenylate cyclase. Activation of any one of these receptors leads to the accumulation of cAMP within the cell which in turn leads to the activation of cAMP-dependent protein kinase. The levels of cAMP accumulation within the cell caused by the 4 activators are not the same. Epinephrine, histamine, adenosine, and prostaglandins of the "E" series cause easily measurable concentrations of cAMP within 5 min of exposure. Prostaglandin F2 alpha causes only a small nonsignificant increase. Similarly, 2 phosphodiesterase inhibitors, which inhibit the breakdown of cAMP formed within the cell, differ in their ability to accumulate cAMP when cells are exposed to these agents alone. Isobutylmethylxanthine causes a measurable increase in cAMP, while theophylline, a weak inhibitor of phosphodiesterase, gives a nonsignificant increase in cAMP. Recently, experiments have shown that agents that give only slight increases in cAMP by biochemical measurements, that is, prostaglandins F2 alpha and theophylline, are equally able to activate protein kinase within the cell. Since activation of protein kinase is the only mechanism for an increase in cAMP to have a physiologic effect, all of these agents that do activate protein kinase should cause physiologic effects. Using an explant culture system, we show in this paper that this supposition is correct and that all agents that activate protein kinase do result in inhibition of mitotic activity regardless of whether or not they are able to raise cAMP to a level that can be biochemically measured as being significantly different from the baseline value.
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PMID:Agents that activate cyclic AMP-dependent protein kinase inhibit explant culture growth and mitotic activity. 619 22

Angiotensin II (AII) regulates the secretion of aldosterone from adrenal glomerulosa cells by a calcium-dependent mechanism which involves both the uptake of calcium from the extracellular pool, and the release of calcium from a dantrolene-sensitive intracellular pool. In the present study, it was shown that AII induces the rapid (10 s) hydrolysis of phosphatidylinositol 4-phosphate and -4,5-bisphosphate, leading to the sustained production of inositol bis- and trisphosphate (Ins-P3), and diacylglycerol rich in arachidonic acid. Saponin-permeabilized glomerulosa cells accumulate calcium into a nonmitochondrial pool by an ATP-dependent manner. Ins-P3 (0.5-5 microM) induces a release of Ca2+ from this pool. This release was blocked by dantrolene (10 microM). Adrenal glomerulosa cells were shown to contain the calcium-activated, phospholipid-dependent protein kinase (C-kinase). Perfusion of glomerulosa cells with combined 12-O-tetradecanoyl phorbol 13-acetate and A23187 induced an immediately developing, sustained, maximal secretory response similar to that induced by AII. These data are interpreted in terms of a model in which, after AII addition, there is a flow of information through two separate branches of the calcium messenger system, each with its unique temporal role: a calmodulin branch activated by the transient rise in the [Ca2+] in the cell cytosol, which is largely responsible for the initial transient cellular response; and a C-kinase branch activated by the increase in both cytosolic [Ca2+] and the diacylglycerol content of the plasma membrane, which is largely responsible for the sustained phase of the cellular response. The temporal integration of these two phases underlies the observed pattern of cellular response.
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PMID:The temporal integration of the aldosterone secretory response to angiotensin occurs via two intracellular pathways. 623 62

Studies of rat skeletal glycogen metabolism carried out in a perfused hindlimb system indicated that epinephrine activates phosphorylase via the cascade of phosphorylation reactions classically linked to the beta-adrenergic receptor/adenylate cyclase system. The beta blocker propranolol completely blocked the effects of epinephrine on cAMP, cAMP-dependent protein kinase, phosphorylase, and glucose-6-P, whereas the alpha blocker phentolamine was totally ineffective. Omission of glucose from the perfusion medium did not modify the effects of epinephrine. Glycogen synthase activity in control perfused and nonperfused muscle was largely glucose-6-P-dependent (-glucose-6-P/+glucose-6-P activity ratios of 0.1 and 0.2, respectively). Epinephrine perfusion caused a small decrease in the enzyme's activity ratio (0.1 to 0.05) and a large increase in its Ka for glucose-6-P (0.3 to 1.5 mM). This increase in glucose-6-P dependency correlated in time with protein kinase activation and was totally blocked by propranolol and unaffected by phentolamine. Comparison of the kinetics of glycogen synthase in extracts of control and epinephrine-perfused muscle with the kinetics of purified rat skeletal muscle glycogen synthase a phosphorylated to various degrees by cAMP-dependent protein kinase indicated that the enzyme was already substantially phosphorylated in control muscle and that epinephrine treatment caused further phosphorylation of synthase, presumably via cAMP-dependent protein kinase. These data provide a basis for speculation about in vivo regulation of the enzyme.
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PMID:Epinephrine regulation of skeletal muscle glycogen metabolism. Studies utilizing the perfused rat hindlimb preparation. 624 74

Possible inhibitory effects of insulin on epinephrine-induced changes in the enzymes of glycogen metabolism in skeletal muscle were tested using a perfused rat hindlimb preparation. Epinephrine and/or insulin were infused over a wide range of concentrations. Insulin at 6 X 10(-9) M increased the activity ratio (--Glc-6-P/+Glc-6-P) of glycogen synthase from a basal value of 0.09 +/- 0.01 to 0.13 +/- 0.01 and caused a 23% decrease in the Ka for Glc-6-P. In contrast, epinephrine at 10(-7) M decreased the activity ratio to 0.05 +/- 0.01 and increased the Ka for Glc-6-P 6.3-fold. Insulin was without effect on the concentration of cAMP or the activity ratio (-cAMP/+cAMP) of cAMP-dependent protein kinase and caused a small decrease in the activity ratio (-AMP/+AMP) of phosphorylase, whereas epinephrine caused large increases in all these parameters. Insulin at 6 X 10(-11) to 6 X 10(-8) M had no inhibitory effect on the actions of 10(-8) or 10(-7) M epinephrine on glycogen synthase, phosphorylase or cAMP-dependent protein kinase at 30 min or at earlier times. Insulin (6 X 10(-9) M) also did not alter th concentration of cAMP in the presence of 10(-8) or 10(-7) M epinephrine. These data are not consistent with the view that insulin activates glycogen synthase by producing an inhibitor of cAMP-dependent protein kinase. Nor do they support the hypothesis that insulin acts by decreasing the activity of an inhibitor of a multisubstrate phosphoprotein phosphatase.
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PMID:Studies on the interactions between insulin and epinephrine in the control of skeletal muscle glycogen metabolism. 626 Jul 99

Differences in the pattern of the development of three enzymes of the plasma membrane have been established. The activity of Na, K-ATPase progressively increases, that of adenylate cyclase decreases, whereas the activity of 5-nucleotidase undergoes only slight changes during embryogenesis. Differences between these enzymes were also found with respect to the development of their sensitivity to the regulatory effects of catecholamines. Adrenaline reactivity of adenylate cyclase may be detected already in embryogenesis; it is lower than that in definite muscle tissue increasing during further ontogenesis. Catecholamine reactivity was not found in Na, K-ATPase and 5-nucleotidase up to the 17th day of incubation of chick embryos. The effect of adrenalin was observed at later stages of ontogenesis, it may be initiated by exogeneous cAMP and protein kinase. At postembryonic stages, similarity in the behavior of these enzymes was found with respect to the presence and pattern of their reaction to adrenalin (stimulation), as well as with respect to temporal dynamics of the effect. The data obtained indicate the existence of close connections between these enzymes, which are realized in the sequence adrenoreceptor-adenylate cyclase-cAMP-protein kinase-effector proteins.
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PMID:[Role of the hypothalamus and pituitary gland in the development of pancreatic islet sensitivity to glucose in fetal rats]. 626 78

Pig epidermal slices were incubated with various compounds which increased epidermal cAMP (adenosine 3',5'-monophosphate), and the change in cAMP-dependent protein kinase activity ratio was studied by the method of Cherrington et al (J Biol Chem 251:5209-5218, 1976) with modification. Epinephrine (5 x 10(-5) M), histamine (10(-4) M) and adenosine (10(-3) M), potent agonists of epidermal adenyl cyclase, fully activated the protein kinase (PK) during an incubation of 30 to 45 seconds, that was much shorter than that required for maximal cAMP accumulation under the same conditions (5 min). With such a brief stimulus, the epidermal cAMP-PK system did not become refractory and responded to repeated stimuli. Prostaglandin E2 (PGE2) and isobuthylmethylxanthine (IBMX) and ethanol only partially activated the enzyme. Prostaglandin F2 alpha (PGF2 alpha) and theophylline which were much less effective in increasing epidermal cAMP, activated the enzyme to the same extent as PGE2 and IBMX respectively. These results suggest that protein kinase activation takes place in response to a cAMP increase in small locus of the cell. Such an increase in cAMP can be very small or even not measurable when measured as total cAMP in the tissue homogenate. Also, increases above this level may not be physiologic. It is concluded that measurement of cAMP-dependent protein kinase activity ratio is a more direct and more sensitive way to study the effect of compounds which act through cAMP mediated mechanisms.
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PMID:Activation of cAMP-dependent protein kinase in epidermis by the compounds which increase epidermal cAMP. 627 Feb 13


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