EC:4.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In present study interactions of some adrenergic drugs with the binding of 3H-norepinephrine (NE) and response of some enzymatic systems in the heart of rats with pharmacological hyperthyroidism have been investigated. Binding of NE to cardiac particles was inhibited by isoproterenol, propranolol and in lower concentrations by another beta-blocking drug trimepranol both in control and hyperthyroid hearts in the same degree. However, after addition of nonradioactive norepinephrine (10(-3) M) the degree of displacement was lower in hyperthyroid than in euthyroid group. Activity of adenylate cyclase was lower in hyperthyroid cardiac particles. This difference remained preserved after stimulation by norepinephrine or NaF. The activities of hormone-sensitive lipase and lipoprotein lipase were increased in preparation of hyperthyroid hearts. The phosphorylase "a" activity was also increased in hyperthyroid cardiac particles. There was no change in cardiac adrenergic binding sites properties in hyperthyroidism with the exception of less displacement of NE by nonlabelled hormone. The results indicate that the increased lipolytic and phosphorylase "a" activities in hyperthyroid hearts are not necessarily linked to elevated activity of adenylate cyclase.
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PMID:Adrenergic binding sites and enzyme activities in the heart of hyperthyroid rats. 0 59

The expression of lipoprotein lipase mRNA (LPL mRNA) was studied in rat hearts by use of a sulfur-35-labeled antisense mRNA probe. Rats were studied under three conditions: fed, fasted, and injected with cholera toxin (an irreversible agonist of adenylate cyclase) and then fasted. The highest LPL activity was found in the hearts of cholera toxin-injected, fasted rats. After injection of cholera toxin, LPL mRNA levels were 3.5-fold higher than those from fed rats. Using in situ hybridization, we studied the site of expression of LPL mRNA under the same three experimental conditions. In sections of hearts from cholera toxin-injected, fasted rats, concentrations of autoradiographic grains, representing the site of LPL mRNA, were seen over interstitial elements, which comprise capillary and perivascular cells. A more diffuse and sparse reaction was seen over cardiac myocytes and was not always distinguishable from background. A similar but much less definitive localization was seen in sections of hearts from fasted rats. The present results indicate that in the rat heart, the main site of LPL synthesis and processing, especially after stimulation with an irreversible agonist of adenylate cyclase, is localized to interstitial elements rather than to adult cardiac myocytes.
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PMID:Expression of lipoprotein lipase mRNA in rat heart is localized mainly to mesenchymal cells as studied by in situ hybridization. 164 86

Incubation of isolated cardiac myocytes with 500 microM-8-(4-chlorophenylthio)adenosine 3',5'-cyclic monophosphate (CPT-cAMP) or 100 microM-forskolin for 2 1/2 h did not increase the heparin-induced release of lipoprotein lipase (LPL) into the medium. When LPL activity in cardiac myocytes was depleted by treatment of rats with cycloheximide (2 mg/kg; 2.5 h) and inclusion of the protein-synthesis inhibitor in the isolation solutions, incubation with CPT-cAMP or forskolin did not influence the rate of repletion of LPL activity in cells or the recovery of heparin-releasable LPL activity. Although the administration of cholera toxin (0.5 mg/kg; 16-17 h) to rats increased LPL activity in a low-speed supernatant fraction from heparin-perfused hearts, LPL activity was not increased in cardiac myocytes from cholera-toxin-treated rat hearts, and the heparin-induced release of LPL was unchanged. Incubation of cultured ventricular myocytes with 1 microgram of cholera toxin/ml or 500 microM-CPT-cAMP for 24 h did not increase cellular LPL activity or LPL released into the culture medium after a 40 min incubation with heparin. Therefore interventions that stimulate adenylate cyclase activity (forskolin, cholera toxin) or incubation with CPT-cAMP do not increase cellular LPL activity or promote the translocation of LPL to a heparin-releasable fraction in cardiac myocytes.
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PMID:Treatment of cardiac myocytes with 8-(4-chlorophenylthio)-adenosine 3',5'-cyclic monophosphate, forskolin or cholera toxin does not stimulate cellular or heparin-releasable lipoprotein lipase activities. 216 39

The cellular basis for the cold-induced increase in lipoprotein lipase activity in rat brown adipose tissue was investigated. Rats were treated with inhibitory agents and either exposed to cold for 4 h or injected with isoprenaline. Lipoprotein lipase activity was followed in acetone-ether extracts of the tissue. Besides cold, both the beta-adrenergic agonist isoprenaline and the adenylate cyclase activator cholera toxin were able to increase lipoprotein lipase activity in the tissue. The protein synthesis inhibitor cycloheximide fully abolished this response; the half-life of lipoprotein lipase activity was both in control and in the cold-exposed state approximately 2 h. Also the mRNA synthesis inhibitor actinomycin D fully abolished the cold-, the isoprenaline-, and the cholera toxin-induced increases in lipoprotein lipase activity; the half-life of lipoprotein lipase mRNA was estimated to be 20-30 h. However, in animals returned to control conditions after a 4-h cold stress, the decline in activity corresponded to a half-life of only 4 h. It was concluded that the increase in lipoprotein lipase activity in the brown adipose tissue of cold-exposed rats is not due to an activation of preexisting enzyme nor due to an increased half-life of functional enzyme. Rather it is suggested that in brown adipose tissue the rate of lipoprotein lipase gene transcription is positively regulated by the cellular level of cAMP and that this increase in lipoprotein lipase mRNA leads directly to an increased rate of enzyme synthesis and hence to the increase in activity.
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PMID:Cold-induced beta-adrenergic recruitment of lipoprotein lipase in brown fat is due to increased transcription. 245 Apr 67

The effect of interference with diacylglycerol metabolism was investigated in pancreatic mouse islets. In the presence of the diacylglycerol lipase inhibitor RHC 80,267, glucose-induced insulin secretion was reduced 50-60%; whereas carbacholin-induced insulin secretion was unaffected. Addition of the diacylglycerol kinase inhibitor R 59,022 did not change glucose-stimulated insulin secretion but abolished the inhibition seen in the presence of RHC 80,267. RHC 80,267 increased islet glucose utilisation, measured as formation of tritiated water from 5-[3H]-glucose, 3-fold but did not affect glucose oxidation to CO2, lactate production or islet ATP levels. Glucose utilisation in leucocytes and hepatocytes was not increased by addition of RHC 80,267. Islet lipid production from glucose was augmented 4-fold in the presence of RHC 80,267 but only accounted for about 5% of the increase in glucose utilisation. The activity of adenylate cyclase and phosphoinositide-specific phospholipase C was unaffected by RHC 80,267. Concentrations of RHC 80,267 below 35 mumol/l did not alter the activity of phospholipase A2; whereas higher concentrations of the drug inhibited phospholipase A2 activity approx 25%. The data support the hypothesis that production of arachidonic acid from diacylglycerol may be involved in regulation of insulin secretion.
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PMID:Effect of diacylglycerol lipase inhibitor RHC 80267 on pancreatic mouse islet metabolism and insulin secretion. 265 50

A model for the regulation of erythropoietin production has been presented. This model proposes that a primary O2-sensing reaction in the kidney is initiated by a decrease in ambient PO2, a rapid decrease in gas exchange in the lung, a diminished oxygen-carrying capacity of hemoglobin, a molecular deprivation of oxygen, or a decrease in renal blood flow. It is proposed that the primary oxygen-sensing reaction may trigger the release of several mediators that stimulate adenylate cyclase through a receptor-activated stimulation of a G protein in the renal cell membrane. Some of the agents that are thought to be released during hypoxia, which may trigger this cascade, are adenosine (A2 activation), eicosanoids (PGE2, PGI2, and 6-keto PGE1), oxygen-free radicals (superoxide and H2O2), and catecholamines with beta-2 adrenergic receptor agonist properties. The activation of adenylate cyclase generates cyclic AMP, which activates protein kinase A, leading to the production of a phosphoprotein that, in turn, activates a nuclear protein involved in transcription and/or translation for erythropoietin biosynthesis and/or secretion. A second part of this model concerns the effect of hypoxia on a renal cell membrane phosphodiesterase and the generation of inositol triphosphate and diacylglycerol. Diacylglycerol may interact with diacylglycerol lipase to generate arachidonic acid, which, together with arachidonic acid generated by the interaction of phospholipase A2 on membrane phospholipids, produces eicosanoids. Eicosanoids may play a secondary role in Ep production/secretion. The model further proposes that calcium levels in both renal and liver cells may be important in regulating erythropoietin biosynthesis and/or secretion. It is proposed that an increase in intracellular calcium leads to the inhibition of erythropoietin biosynthesis and/or secretion and a decrease in intracellular calcium increases erythropoietin production. The specific mechanism by which calcium regulates erythropoietin biosynthesis and secretion is not well understood. However, a good correlation is seen with several agents that decrease intracellular calcium and increase erythropoietin production as well as with other agents that increase intracellular calcium and decrease erythropoietin production. When inositol triphosphate levels are increased, an increase in the mobilization of intracellular calcium from the endoplasmic reticulum or another intracellular pool occurs. This increased intracellular calcium probably activates a calcium calmodulin kinase and produces a phosphoprotein that inhibits erythropoietin production/secretion.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pharmacologic modulation of erythropoietin production. 328 82

In the mammalian myocardium, an active triglyceride synthesis pathway is operating, (re)esterifying activated fatty acids from endogenous or exogenous sources, with the glycolytically derived three-carbon intermediates dihydroxyacetone-phosphate and glycerol-3-phosphate by the so-called Kennedy pathway. The seven enzymes of triglyceride synthesis are membrane bound and located at the sarcoplasmic reticulum. The first enzyme in the glycerol-3-phosphate pathway, glycerol-3-phosphate acyltransferase, is proposed to be rate limiting for triglyceride formation. This microsomal enzyme is regulated by phosphorylation (inactiycation)-dephosphorylation (activation) coupled to the beta-receptor--adenyl cyclase--protein kinase system. Additional regulatory steps in triglyceride formation are the reactions catalyzed by the microsomal phosphatidic acid phosphatase and diglyceride acyltransferase. Intracellular triglycerides occur as free floating cytosolic droplets, membrane-bound particles and lipid-filled lysosomes. No consensus exists about the metabolically active portion of myocardial triglycerides. Various lipases have been proposed to be involved in endogenous lipolysis: the lysosomal acid, microsomal and soluble neutral triglyceride, intracellular lipoprotein lipases and the microsomal di- and monoglyceridase. It has been acknowledged that the bulk of the intracellular neutral lipase represents the precursor of vascular lipoprotein lipase. The presence of a neutral lipase, as distinct from lipoprotein lipase, in the rat heart was recently advocated. Endogenous lipolysis is a hormone-sensitive process. Hormone-sensitivity may involve direct alteration of enzyme activity by protein phosphorylation-dephosphorylation but is also dependent on the removal rate of product fatty acids, since feedback inhibition is a common property of all lipases in the heart.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Synthesis, storage and degradation of myocardial triglycerides. 331 Oct 5

Congenital intraspinal lipomas are frequently responsible for progressive neurological deficits caused by distortion or compression of the nervous system. Since fat metabolism in these lesions has not been previously studied, the aim of this study was to determine whether intraspinal lipoma cells behave like lipomas or like normal adipocytes. In 11 patients, intraspinal lipoma cells were compared with normal adipocytes isolated from adjacent subcutaneous adipose tissue for the following parameters: lipoprotein lipase (LPL), lipogenesis from U14C glucose, beta-receptor number, adenylate cyclase activity, cyclic AMP production, and lipolysis in response to beta- and alpha 2-adrenergic agonists. No significant difference between these two cell populations was found, suggesting that intraspinal lipomas are not lipomatous tumors, but hamartomatous lesions capable of growth and regression along with the changes in the rest of the fatty pool. This emphasizes the danger of an abnormal weight gain, as well as the possible usefulness of an hypocaloric diet in patients who worsen in spite of previous surgery.
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PMID:Are the metabolic characteristics of congenital intraspinal lipoma cells identical to, or different from normal adipocytes? 354 63

Rats were injected intravenously with cholera toxin, a potent stimulator of adenylate cyclase, and lipoprotein lipase was determined in various organs and plasma. 16 h after cholera toxin injection, lipoprotein lipase activity increased 2-6-fold in heart, diaphragm and lung and decreased to one-third in adipose tissue. An increase in lipoprotein lipase activity was seen in the plasma and in the liver, as determined by antiserum to lipoprotein lipase. The increase in heart lipoprotein lipase was preceded by a rise in cyclic AMP and continued for 24 h when cyclic AMP returned to base-line levels. Both heparin-releasable and residual lipoprotein lipase increased in the heart, but to an unequal extent. The more pronounced rise in residual activity (up to 10-fold) could have contributed to an increase in the t1/2 of heart lipoprotein lipase from 1.5 to 2.6 h. The relatively lower increase in heparin-releasable lipoprotein lipase could have been due to a loss of the enzyme from this compartment into the circulation. The effect of cholera toxin on heart and adipose tissue lipoprotien lipase was observed in fasted, fed and super-fed animals and thus appears to be independent of the nutritional state of the animal. Since cholera toxin not only mimics hormonal stimulation, but causes an exaggerated response to hormones, it made studies on some aspects of regulation of both the functional and storage forms of lipoprotein lipase in the intact organism possible.
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PMID:Modulation of lipoprotein lipase in the intact rat by cholera toxin--an irreversible agonist of cyclic AMP. 608 1

Three macrophage cell lines, J774(2), CT2 and J7H1 were compared with respect to synthesis and secretion of lipoprotein lipase. The enzyme activity measured was characterized as lipoprotein lipase on the basis of serum dependence and inhibition by 1 M NaCl. Enzyme activity in all three lines increased with time in culture and the highest activity was found in the medium of the CT2 line which is adenylate cyclase deficient while that in the J7H1 line, cyclic AMP-dependent protein kinase deficient, was intermediate. The half life of the enzyme activity in conditioned medium from all three lines was 30-40 min, suggesting that the different levels of activity observed do represent different levels of enzyme production by the cells. About 80% of the lipoprotein lipase activity from all three lines was present in the medium and 50-70% of cellular activity could be released into the medium by a 3-min exposure to heparin. In addition, 24 h incubation with heparin enhanced enzyme secretion in all three lines. To determine the role of cyclic AMP in the regulation of lipoprotein lipase activity use was made of dibutyryl cAMP, methyl isobutylxanthine (IBMX) and cholera toxin. These agents strikingly depressed lipoprotein lipase activity in the J774(2) line but only dibutyryl cAMP was active in the CT2 line (adenylate cyclase deficient). In the J7H1 (protein kinase deficient) line there was no response to dibutyryl cAMP or IBMX over the first 4 h of incubation. Addition of these agents did not affect total cell protein synthesis. The present findings indicate that in the intact cells changes in cyclic AMP levels are associated with a change in the activity of lipoprotein lipase.
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PMID:Lipoprotein lipase activity in cultured macrophage cell line J774(2) and its increase in variants deficient in adenylate cyclase and cyclic AMP-dependent protein kinase. 618 77

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