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)

Using the method in which leukocyte suspensions were incubated with NaF or metaproterenol at 30 degrees C for 15-30 min to allow them to convert 3H-ATP (10 muCi) to 3H-cyclic AMP, followed by separation of the formed 3H-cyclic AMP by common chromatography, the leukocyte adenyl cyclase activity of monkeys and human beings was measured with high reproducibility. The oral administration of metaproterenol increased the leukocyte adenyl cyclase activity which was stimulated by NaF and decreased the count of peripheral eosinophils in some of the monkeys. In the beta-adrenergic blockade of the monkey which was made by administration of propranolol, the leukocyte adenyl cyclase activity significantly decreased. The leukocyte adenyl cyclase from patients with coronary heart disease also decreased after oral medication with propranolol.
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PMID:Effects of beta-adrenergic stimulating and blocking agents on the adrenaline response and adenyl cyclase activity of leukocyte in monkey and human being. 0 68

The distribution and classification of histamine receptors in mammalian and avian tissues have been summarized in Tables 1-4. It is evident that histamine receptors are present on a number of morphologically distinct cell types and the proportion of cells bearing H1- and H2-receptors varies not only with the species but also with the cell source. The pharmacological receptors mediating mepyramine-sensitive histamine responses have been defined as H1-receptors. Receptors mediating mepyramine-resistant, but burimamide or metiamide-sensitive histamine responses have been classified as H2-receptors. Histamine responses mediated via H2-receptors seem to involve the adenylcyclase system resulting in elevation of intracellular cyclic-AMP level, which is susceptible to burimamide blockade but insensitive to beta-adrenergic blocking agents. This mode of action of histamine involving H2-receptors and the adenyl cyclase system has been shown to stimulate the mammalian heart; promote gastric acid secretion; inhibit antigen-induced histamine release from leucocytes and inhibit lymphocyte-mediated cytotoxicity. It can further be concluded that both H1- and H2-receptors are widely distributed throughout the animal body in the gastro-intestinal, reproductive, respiratory and cardiovascular systems, nervous system and on mast cells and blood leucocytes. In these tissues, histamine receptors play an important role in physiological, immunological and immunopathological processes. Interaction of histamine with both H1- and H2-receptors in varying proportions modulates the overall manifestation of cardiovascular and respiratory syndromes during certain immunopathological conditions (e.g. inflammation, allergy and anaphylaxis). Histamine receptors also appear to play and important role in the development of immuno-competence and immunity.
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PMID:Classification and biological distribution of histamine receptor sub-types. 0 79

(1) A system is described for studying the short-term effects of agents on proinsulin synthesis in vitro, as measured by the incorporation of [3H]leucine into isolated proinsulin. (2) Of the agents tested, glucose has the most marked, and apparently earliest, effect on proinsulin synthesis. (3) The adenyl cyclase system participates in the regulation of proinsulin synthesis since exogenous cyclic AMP, glucagon, and caffeine are stimulatory. When cyclic AMP is added to the medium in the presence of glucose, it is the most potent agent acting on the adenyl cyclase-phosphodiesterase system. (4) The addition of NADPH to isolated rat islets inhibits proinsulin and Bulk Protein synthesis in vitro.
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PMID:Regulation of proinsulin synthesis in isolated rat islets. 0 29

The chorontropic response of isolated rabbit atria in normal Tyrode's medium increases monotonically with increasing doses of histamine (9 X 10-7 -9 X 10-4 M). Plots of the inverse of response against the inverse of concentration were linear; and from these plots were derived values fro the theoretical maximum response at 'infinite' dose and for pH histamine concentration required to evoke a half maximum response. Alteration of pH by changing (HCO3-) at a constant pCO2, (Na) and osolality did not appreciably affect the response to histamine in the range pH 7.0-7.6. However, at pH below 7.0 the magnitude of histamine response was reduced at all concentrations of histamine tested. In the pH range 7.0-7.6, additions of NaHCO3 at constant pCO2 increased the spontaneous rate of rabbit atria (in the absence of histamine); however, there was little effect of changing pH (in this range) by altering (HCO3-) at constant pCO2 when (Na+) and osmolaity were kept constant. Immersion in solutions at pH's less than 7.0 led to decline in spontaneous rate and force contraction. It is probable that depression of adenyl cyclase activity rather than a specific change in ionization of histamine receptor is responsible for a decreased response to histamine at pH 6.9.
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PMID:The effect of pH on rabbit atrial response to histamine. 0 37

Patients with atopic dermatitis have abnormal autonomic responses of the arterioles, pilomotor smooth muscle, and sweat glands. Their lesions have been reported to contain increased amounts of the neurohumors, acetylcholine and norepinephrine, as well as increased activity of acetylcholinesterase and catechol-O-methyltransferase. In vitro studies of epidermis show that beta adrenergic agonists fail to evoke the normal inhibition of mitosis of basal cells of patients with atopic dermatitis. Epidermis removed not only from the lesions, but also from normal-appearing skin, responded abnormally. The increase in intracellular levels of cAMP after exposure to catecholamines was similar in normal and atopic epidermis. Lymphocytes and PMN leukocytes isolated from patients with atopic dermatitis show both a decreased physiologic response (glycogenolysis and inhibition of lysosome enzyme release) and a decreased rise in intracellular levels of cAMP upon incubation with beta agonists, but a normal response to PGE1. Cortisol increases the response of lymphocyte adenyl cyclase to both agonists and, in the case of the patients with atopic disease, more than overcomes the depressed response to beta agonists. Because the leukocytes respond normally to PGE1 and because others have reported normal activities of skin and adenyl cyclase, phosphodiesterase, and protein kinases, we conclude that the step responsible for the diminished beta adrenergic response lies antecedent to the catalytic site of adenyl cyclase.
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PMID:Adrenergic mechanisms and the adenyl cyclase system in atopic dermatitis. 0 56

The 3-isopropyl (I), 3-cyclohexyl (II) and 3-phenyl (III) analogs of the new antipsychotic drug butaclamol, which contains a 3-tertiary butyl group, and their respective (+)-enantiomers, but not (-)-enantiomers, caused a dose related elevation of rat striatal homovanillic acid concentration, indicative of an increased dopamine (DA) turnover; droperidol also exhibited this activity. The order of activity of the (+)-enantiomers was (butaclamol) approximately II greater than I greater than III. A decrease in striatal DA was observed with (+)-I and (+)-III at the highest dose used, but not at one-half the dose. Each analog antagonized the DA-induced increase in adenyl cyclase (EC 4.6.1.1) activity of olfactory tubercle homogenates, the order of activity of the racemates (except for II) AND (+)-ENANTIOMERS BEING (BUTACLAMOL) APPROXIMATELY I greater than III greater than II. The (+)-enantiomers of butaclamol and analogs were two to four times more potent than their respective racemates, with (+)-butaclamol and (+)-I displaying activity generally equivalent to fluphenazine. The respective (-)-enantiomers were ineffective indicating a stereochemical specificity for DA-receptor blockade. Such analogs presented should be of value in elucidating dopaminergic mechansims.
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PMID:Effect of structural analogs of butaclamol (a new antipsychotic drug) on striatal homovanillic acid and adenyl cyclase of olfactory tubercle in rats. 1 57

Dopamine increased coronary blood flow in the dog heart pretreated with alpha-adrenoceptor blocking agents. The coronary vasodilator response was completely inhibited by indomethacin when pretreated with propranolol in addition to alpha blockade. The coronary vasodilation exerted by sodium nitrite was potentiated by indomethacin and adrenergic blockade. In coronary arterial strips, dopamine produced a contraction which was abolished by phenoxybenzamine. Dopamine elicited a dose-dependent relaxation in coronary arterial strips contracted previously by KC1 after pretreatment with phenoxybenzamine. The relaxation was potentiated by indomethacin; this effect was completely blocked by propranolol. Prostaglandin (PG)E1 produced a relaxing response but reduced the dopamine-induced relaxation. From the results it is suggested that beta-adrenoceptor stimulation and release of PG were involved in the coronary vasodilator response to dopamine. PG released by dopamine may increase coronary blood flow on the one hand and reduce beta-adrenoceptor stimulation by inhibiting adenyl cyclase on the other.
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PMID:Possible mechanisms involved in the coronary vasodilatory response to dopamine. 1 Aug 61

An understanding of the physiology of vascular smooth muscle and knowledge of the reaction of such muscle to certain drugs are essential for the development of a means of treating cerebral arterial spasm. The role of cyclic nucleotides in vascular smooth muscle activity is reviewed and possible therapeutic approaches are listed. Probably the safest and most effective treatment would be 1) stimulation of the adenyl cyclase-cyclic adenosine monophosphate system by a beta(2)-adrenergic drug combined with 2) inhibition of the phosphodiesterase system.
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PMID:A review of recent advances in vascular smooth muscle pharmacology. 1 4

Canine marrow erythroid colony growth is enhanced by agents linked to the adenyl cyclase/cyclic AMP (cAMP) system, including cAMP, a phosphodieterase inhibitor (RO-20-1724), cholera enterotoxin, and beta-adrenergic agonists. The adrenergic effect is mediated by receptors having beta2-subspecificity. These receptors are distinct from putative receptors for erythropoietin and those acted upon by cholera enterotoxin. In addition, the population of cells most responsive to beta-agonists is distinct from the majority of erythropoientin-responsive cells, perhaps representing a subpopulation of this class of cell. This demonstration of an adenyl cyclase-linked mechanism regulating mammalian erythroid colony growth provides a model for the modulation by other hormones or small molecules of in vitro and, perhaps, in vivo erythropoiesis.
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PMID:Modulation of in vitro erythropoiesis. The influence of beta-adrenergic agonists on erythroid colony formation. 1 18

Brodetella pertussis organisms have a large amount of extracytoplasmic adenyl cyclase, part of which is found in the supernatant culture medium during exponential growth. The enzyme differs from previously studied bacterial adenyl cyclases in biochemical characteristics as well as in location. Several commercial pertussis vaccines were found to contain adenyl cyclase activity; this activity is probably due to the extracytoplasmic enzyme associated with and released from the whole cells in the vaccine.
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PMID:Adenyl cyclase in Bordetella pertussis vaccines. 1 42

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