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)

Cyclic AMP-dependent protein kinase isozymes of pig and human skin (epidermis) were separated by DEAE-cellulose column chromatography after micromodification for small biopsy samples. Clear-cut separations of type I and type II isozymes, which were of about equal amounts, could be obtained only when the ischemia effect was avoided by in vivo freezing of skin and homogenization for less than 10 s. Intradermal injections of epinephrine caused dose-dependent activation of type I isozyme, but not of type II. Injections of other skin adenylate cyclase stimulators such as histamine, adenosine, and prostaglandin E2 elevated the local cyclic AMP levels to not more than 5 pmol/mg protein and also stimulated only the type I isozyme. Incubation of keratome-sliced pig skin under various conditions caused both activation by dissociation and inactivation by reassociation of the subunits, which appeared to be dependent on the cyclic AMP content. Epinephrine added to the incubation medium led to complete activation of both type I and type II isozymes (the intraepidermal cyclic AMP contents ranged from 20-50 pmol/mg protein). The isozymes of normal skin and involved skin of psoriatics showed identical peaks of type I and type II isozymes of equal amounts. The data indicate that protein kinase in the involved skin is not in an activated (by cyclic AMP) state.
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PMID:Cyclic AMP-dependent protein kinase isozymes of pig skin and human skin from normal and psoriatic subjects. 629 36

The kinetics for activation of the cyclic adenosine 3':5'-monophosphate (cyclic AMP)-dependent protein kinase (PKA) and thymidine incorporation into DNA was investigated in epinephrine- and prostaglandin E1 (PGE1)-treated murine P1798 lymphosarcoma cells. A positive correlation between the duration and extent of PKA activation and accumulation of cyclic AMP and inhibition of thymidine incorporation into DNA was observed with both hormones. Epinephrine and PGE1 elevated intracellular cyclic AMP 34- and 14-fold, respectively. All hormone concentrations which increased cyclic AMP accumulation also promoted inhibition of thymidine incorporation into DNA. In addition, dibutyryl cyclic AMP (50 microM) inhibited thymidine incorporation. No difference in the kinetics for activation of PKA was observed when cells were treated with microM epinephrine or PGE1. With both agents, 50% PKA activation was observed when intracellular cyclic AMP concentrations were elevated 6.5-fold, or to 9 pmol/10(6) cells. In the presence of microM epinephrine, the cyclic AMP concentration was approximately 3-fold greater than that required for maximal PKA activation. In this case, the duration of the activation time for PKA was also 3- to 4-fold longer than that observed with 0.1 microM epinephrine. The data are consistent with a mechanism wherein both epinephrine and PGE1 suppress DNA synthesis by a cyclic AMP-mediated cascade of protein phosphorylation. No evidence for independent cyclic AMP or PKA pools which respond independently to either epinephrine or PGE1 could be detected.
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PMID:Kinetics of adenosine 3':5'-monophosphate-dependent protein kinase activation and inhibition of thymidine incorporation into DNA in P1798 lymphosarcoma cells. 630 87

Adrenal cortical mitochondria contain a mixed function oxidase capable of converting cholesterol to pregnenolone; this enzyme requires NADPH, oxygen and cholesterol. This cholesterol side chain cleavage enzyme system contains a Flavoprotein, an iron sulphur protein and a specific cytochrome P450 termed cytochrome P450scc. ACTH stimulates the adrenal cortex by activating adenyl cyclase producing an elevated intracellular concentration of cAMP. This in turn increases the activity of a cytosolic cAMP dependent protein kinase. Adrenal cortical cytosol contains a cholesterol ester hydrolase which is activated by ATP and a protein kinase. This enzyme may be deactivated by a phosphoprotein phosphatase. The adrenal cortex contains lipid droplets that are rich in esterified cholesterol. Cholesterol ester hydrolase can release free cholesterol from the lipid droplets. The free cholesterol released may be used to supplement the mitochondrial cholesterol as a pregnenolone precursor. Steroid hormone production by the adrenal cortex exhibits a diurnal rhythm and correlates with the activity of the cytosolic cholesterol ester hydrolase. The acute steroidogenic response to ACTH may be in part attributed to the availability of free cholesterol to the mitochondrial cholesterol side chain cleavage enzyme complex. The intracellular movement of free cholesterol from lipid droplets to mitochondrial inner membranes may be impeded by protein synthesis inhibitors such as cycloheximide. The precise mechanism of this block in steroidogenesis remains to be elucidated. Various drugs and oestrogenic hormones suppress the plasma and adrenal cholesterol concentrations. If adrenal cells are deficient in cholesterol, these cells exhibit a diminished response to ACTH. The response to this hormone can be corrected by supplying cholesterol via exogenous plasma lipoproteins. The route that free cholesterol follows within the adrenal cortical cell and the physiological factors influencing free cholesterol movement in such cells are important issues to be explored in future.
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PMID:Cholesterol metabolism in the adrenal cortex. 631 Feb 52

Isolated perfused hearts from control Bio-Breeding/Worcester (BB/W) rats and spontaneously diabetic BB/W rats were studied to determine whether metabolic abnormalities that are expressed in alloxan-diabetic rats in the regulation of enzymes involved in glycogen metabolism could be observed in this non-chemically induced insulin-deficient rat. Perfusion of hearts from control rats with 10(-8) M insulin for 10 min resulted in activation of glycogen synthase (30% synthase I without insulin to 44% synthase I with insulin). Perfusion of hearts from BB/W diabetic rats demonstrated a lack of acute synthase activation with insulin and a 45% decrease in synthase phosphatase activity. Perfusion of hearts from BB/W diabetic rats with 0.28 microM epinephrine for 1 min resulted in a greater activation of phosphorylase (44% phosphorylase a) than that observed in BB/W control hearts (31% phosphorylase a) perfused under the same conditions. Epinephrine produced similar changes in cyclic AMP accumulation, protein kinase activation, and phosphorylase kinase activation in perfused hearts of BB/W control and diabetic rats. Further, phosphorylase phosphatase activities were not changed by epinephrine or insulin deficiency. These studies further document metabolic abnormalities in the BB/W diabetic rat that are attributable to insulin deficiency in a non-chemically induced model for insulin-dependent diabetes.
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PMID:Altered regulation of cardiac glycogen metabolism in spontaneously diabetic rats. 631 7

The ability of glucagon and of adrenaline to affect the concentration of fructose 2,6-bisphosphate in isolated hepatocytes was re-investigated because of important discrepancies existing in the literature. We were unable to detect a significant difference in the sensitivity of the hepatocytes with regard to the effect of glucagon to initiate the interconversion of phosphorylase, pyruvate kinase, 6-phosphofructo-2-kinase and fructose 2,6-bisphosphatase, and also to cause the disappearance of fructose 2,6-bisphosphate. In contrast, we have observed differences in the time-course of these various changes, since the interconversions of phosphorylase and of pyruvate kinase were at least twice as fast as those of 6-phosphofructo-2-kinase and of fructose 2,6-bisphosphatase. When measured in a cell-free system in the presence of MgATP, the cyclic AMP-dependent interconversion of pyruvate kinase was 5-10-fold more rapid than those of 6-phosphofructo-2-kinase and of fructose 2,6-bisphosphatase. These data indicate that 6-phosphofructo-2-kinase and fructose 2,6-bisphosphatase are relatively poor substrates for cyclic AMP-dependent protein kinase; they also support the hypothesis that the two catalytic activities belong to a single protein. Adrenaline had only a slight effect on the several parameters under investigation, except for the activation of phosphorylase. In the absence of Ca2+ ions from the incubation medium, however, adrenaline had an effect similar to that of glucagon.
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PMID:Hormonal control of fructose 2,6-bisphosphate concentration in isolated rat hepatocytes. 631 64

Evidence was obtained for catecholamine-stimulated adenylate cyclase activity in particulate fractions of frog and rabbit corneal epithelium. Epinephrine (10(-5)M) stimulated adenylate cyclase by 22 and 53% in the frog and rabbit, respectively. The corresponding changes were statistically significant (P less than 0.01) when the data was analyzed using paired variates. Preincubation with 10(-4)M propranolol eliminated any stimulatory effect by 10(-5)M isoproterenol. Adenylate cyclase activity derived from either source was activated several fold by either 10 mM NaF or 10(-5)MGpp (NH)p. Soluble fractions of homogenized frog corneal epithelium contained cyclic AMP-dependent protein kinase activity which was half-maximally stimulated by about 6 nM cyclic AMP. Evidence was also obtained for the presence of protein substrates of cyclic AMP dependent protein kinase in frog corneal epithelium. With exogenous cyclic AMP and protein kinase, a rapid 32P labelling of proteins having approximate molecular weights of 56, 46, 23 and 21 K was obtained with sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis. A less marked and slower increase in phosphoprotein formation was observed when corneal membranes were incubated with cyclic AMP in the absence of added protein kinase.
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PMID:Evidence for catecholamine-stimulated adenylate cyclase activity in frog and rabbit corneal epithelium and cyclic AMP-dependent protein kinase and its protein substrates in frog corneal epithelium. 631 65

Isolated rat hepatocytes were incubated in a medium containing 0.1 mM [32P]phosphate (0.1 mCi/ml) before exposure to epinephrine, glucagon or vasopressin. 32P-labeled glycogen synthase was purified from extracts of control or hormone-treated cells by the use of specific antibodies raised to rabbit skeletal muscle glycogen synthase. Analysis of the immunoprecipitates by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicated that a single 32P-labeled polypeptide, apparent Mr 88000, was removed specifically by the antibodies and corresponded to glycogen synthase. Similar electrophoretic analysis of CNBr fragments prepared from the immunoprecipitate revealed that 32P was distributed between two fragments, of apparent Mr 14000 (CB-1) and 28000 (CB-2). Epinephrine, vasopressin or glucagon increased the 32P content of the glycogen synthase subunit. CB-2 phosphorylation was increased by all three hormones while CB-1 was most affected by epinephrine and vasopressin. These effects correlated with a decrease in glycogen synthase activity. From studies using rat liver glycogen synthase, purified by conventional methods and phosphorylated in vitro by individual protein kinases, it was found that electrophoretically similar CNBr fragments could be obtained. However, neither cyclic-AMP-dependent protein kinase nor three different Ca2+-dependent enzymes (phosphorylase kinase, calmodulin-dependent protein kinase, and protein kinase C) were effective in phosphorylating CB-2. The protein kinases most effective towards CB-2 were the Ca2+ and cyclic-nucleotide-independent enzymes casein kinase II (PC0.7) and FA/GSK-3. The results demonstrate that rat liver glycogen synthase undergoes multiple phosphorylation in whole cells and that stimulation of cells by glycogenolytic hormones can modify the phosphorylation of at least two distinct sites in the enzyme. The specificity of the hormones, however, cannot be explained simply by the direct action of any known protein kinase dependent on cyclic nucleotide or Ca2+. Therefore, either control of other protein kinases, such as FA/GSK-3, is involved or phosphatase activity is regulated, or both.
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PMID:Control of glycogen synthase phosphorylation in isolated rat hepatocytes by epinephrine, vasopressin and glucagon. 643 31

The hormonal regulation of L-type pyruvate kinase in hepatocytes from phosphorylase b kinase-deficient (gsd/gsd) rats was investigated. Adrenaline (10 microM) and glucagon (10 nM) each led to an inactivation and phosphorylation of pyruvate kinase. Dose-response curves for adrenaline-mediated inactivation of pyruvate kinase, phosphorylation of pyruvate kinase and the stimulation of gluconeogenesis from 1.8 mM-lactate were similar for hepatocytes from control and gsd/gsd rats. Time-course studies indicated that adrenaline-mediated inactivation and phosphorylation of pyruvate kinase proceeded more slowly in phosphorylase kinase-deficient hepatocytes than in control hepatocytes. The age-dependent change in the adrenergic control of pyruvate kinase was similar between control and phosphorylase kinase-deficient hepatocytes. Adrenaline, glucagon and noradrenaline activated the cyclic AMP-dependent protein kinase and inhibited pyruvate kinase in phosphorylase kinase-deficient hepatocytes. Vasopressin (0.2-2 nM), angiotensin (10nM) and A23187 (10 microM) had no effect on the activity ratio of the cyclic AMP-dependent protein kinase or pyruvate kinase in these cells. It is concluded that phosphorylase kinase plays no significant role in the hormonal control of pyruvate kinase and that phosphorylation and inactivation of this enzyme results predominantly from the action of the cyclic AMP-dependent protein kinase.
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PMID:Hormonal regulation of L-type pyruvate kinase in hepatocytes from phosphorylase kinase-deficient (gsd/gsd) rats. 652 78

Microsomal cytochrome P450c17 catalyzes both steroid 17 alpha-hydroxylase activity and scission of the C17-C20 steroid bond (17,20-lyase) on the same active site. Adrenal 17 alpha-hydroxylase activity is needed to produce cortisol throughout life, but 17,20-lyase activity appears to be controlled independently in a complex, age-dependent pattern. We show that human P450c17 is phosphorylated on serine and threonine residues by a cAMP-dependent protein kinase. Phosphorylation of P450c17 increases 17,20-lyase activity, while dephosphorylation virtually eliminates this activity. Hormonally regulated serine phosphorylation of human P450c17 suggests a possible mechanism for human adrenarche and may be a unifying etiologic link between the hyperandrogenism and insulin resistance that characterize the polycystic ovary syndrome.
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PMID:Serine phosphorylation of human P450c17 increases 17,20-lyase activity: implications for adrenarche and the polycystic ovary syndrome. 747 52

A question whether phosphorylation is involved in adrenergic effects on cardiac tissues has long been a matter of dispute. We examined whether phosphorylation is involved in adrenergic chronotropism and inotropism in excised cardiac muscles from guinea pigs. KT5720, a specific inhibitor of A-kinase, abolished the late phase of adrenergic chronotropism. Okadaic acid, an inhibitor of phosphoprotein phosphatases, and IBMX (1-methyl, 3-isobutylxanthine), a phosphodiesterase inhibitor, potentiated the chronotropism. The adrenergic inotropism was influenced neither by KT5720, okadaic acid, nor by IBMX. The specific beta 1 -adrenergic agonist, denopamine, showed actions similar to adrenaline and susceptibility to the inhibitors. Adrenaline of 10 microM showed a chronotropic time course consisting of early and late components. We concluded that only the late component results from phosphorylation, and its early one and the inotropism is entirely independent of phosphorylation.
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PMID:Phosphorylation and adrenergic chronotropism and inotropism in guinea pig cardiac muscles. 753 80


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