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)

Injection of rats with tranylcypromine and L-dopa increased brain dopamine concentrations and produced a behavioural syndrome that includes hyperactivity. It also elevated caudate nucleus cyclic AMP concentrations by approximately 50% in vivo, probably by stimulating dopamine receptors. Pretreatment with chlorpromazine inhibited both the tranylcypromine/L-dopa-induced behaviour and elevated cyclic AMP concentrations in a dose-dependent manner. Haloperidol and alpha-flupenthixol also inhibited both effects, while beta-flupenthixol and pimozide were without effect. Since none of these drugs altered the tranylcypromine/L-dopa-induced rise of brain dopamine, it is likely that they produced their effect by inhibiting dopamine-sensitive adenylate cyclase. A good correlation was found to exist between the neuroleptic inhibition of both the increased behavioural activity and the increased caudate nucleus cyclic AMP concentrations produced by tranylcypromine and L-dopa.
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PMID:Neuroleptic drugs block both the hyperactivity and the increase in caudate nucleus cyclic AMP concentration produced by the administration of tranylcypromine and L-dopa to rats. 2 1

The influence of cholera toxin (CT), and thus probably of cyclic AMP, on the capacity of parental lymphoid cells to elicit a graft-versus-host reaction (GVHR) was studied. Toxin-treated DBA/1 mice were used as cell donors and untreated DBA/1xC57B1/6 F1 hybrid mice as recipients, and the GVHR reactivity of the transferred cells was estimated by their ability to induce spleen enlargement or stimulation of antibody formation ('allogenic effect') in the recipients. Spleen cells from donors intravenously injected with 1 microgram CT 1-3 days earlier, gave a significantly stronger GVHR than did spleen cells of untreated mice. Choleragenoid, a toxin analog devoid of the toxin's ability to activate plasma membrane adenylate cyclase even though it binds efficiently to cells, had no effect on the GVHR-inducing capacity of the spleen cells. The enhanced GVHR by spleen cells from toxin-treated DBA/1 animals was reduced to the normal level when the donor cells were transferred along with lymphoid cells from untreated animals of the same strain. Spleen was the most powerful source of the suppressive influence. No evidence for a redistribution of suppressor cells following administration of CT was found. Spleen cells from mice syngeneic with the recipients had no suppressive effect. The results suggest that parenterally administered CT, directly or indirectly, can inhibit a cell population in spleen which normally exerts an antigen-specific suppressive regulatory influence on the development of GVHR.
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PMID:Interaction of cholera toxin and toxin derivatives with lymphocytes. III. Modulating effects in vivo by cholera toxin on the graft-versus-host reactivity of lymphoid cells: suggested inhibition of suppressor cells. 2 37

Carbenoxolone slightly but significantly decreased the release of FFA from rat epididymal fat pads. The antilipolytic action of carbenoxolone was not blocked by 10(-3)M 3-isobutyl-1-methylxanthine, a potent inhibitor of phosphodiesterase. The findings suggest that carbenoxolone exerts its antilipolytic activity by acting on adenylate cyclase, thereby decreasing cyclic AMP concentrations and the activity of the hormone-sensitive lipase in adipose tissue.
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PMID:Effect of carbenoxolone on lipolysis in rat adipose tissue. 2 44

The selective destruction of neuronal perikarya via intracerebral injections of kainic acid was used to elucidate the cellular location of four neurotransmitter-related enzymes in the substantia nigra (SN). Two weeks after intranigral injections of kainic acid, dopamine-sensitive adenylate cyclase, glutamic acid decarboxylase (GAD), choline acetyltransferase (CAT) and acetylcholinesterase (AChE) were measured in the SN. Histological examination of the SN, and a reduction of striatal tyrosine hydroxylase (TH) activity by 94%, confirmed the extensive loss of neuronal cell bodies in the SN. Dopamine stimulation of adenylate cyclase was not reduced in the lesioned SN, supporting the view that dendritically-released dopamine can regulate cyclic AMP synthesis in afferent terminals to these dendrites. Nigral GAD activity was significantly reduced by the lesions, suggesting that there are GAD-containing perikarya in the SN. CAT activity was not affected by the kainic injections, indicating the absence of cholinergic perikarya in the SN. Nigral AChE activity was significantly decreased after kainic injections, thus confirming the presence of AChE within the nigral perikarya. The results suggest that dopamine-sensitive adenylate cyclase and CAT are located within afferents to the SN, while GAD and AChE are found, to some extent at least, in neuronal soma of the SN. The differentail effects of kainic acid on these enzymes suggest that this compound may be a useful neurochemical tool with which to determine the cellular distribution of enzyme systems in the central nervous system.
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PMID:The use of kainic acid in the localization of enzymes in the substantia nigra. 2 84

Various receptor-linked cyclic AMP systems were measured in rat neostriatum 2--14 days after selective destruction of neuronal cell bodies and dendrites by micro-injection of 3 microgram of kainic acid. Basal adenylate cyclase activity was reduced by up to 56% in the injected side and the sensitivity to dopamine was abolished. Up to 84% of cyclic nucleotide phosphodiesterase activity, hydrolyzing either cyclic AMP or cyclic GMP, was destroyed by kainic acid injection. Specific binding of [3H]etorphine and [3H]spiroperidol was reduced by up to 62% in the injected side, while non-specific binding was unchanged. All of these changes were time-dependent, and were greatest 7--14 days after kainic acid treatment. On the other hand, intrastriatal kainic acid injection caused no change in the steady-state concentration of cyclic AMP in striatal slices, or in the in vivo cyclic AMP content in the striatum of rats killed by microwave irradiation. Receptor-mediated increases in cyclic AMP accumulation in striatal slices were either unchanged or markedly potentiated by kainic acid treatment. The maximum response to adenosine was unchanged, while the response to isoprenaline was increased up to 3.7-fold, the response to dopamine increased up to 6.7-fold, and the response to PGE1 increased up to 30-fold. The effect of dopamine in kainic acid-treated striatal slices was no longer blocked by fluphenazine, but was blocked by propranolol, suggesting an interaction of dopamine with a beta-adrenoceptor in kainic acid-treated slices. The results suggest differential cellular localizations of the various receptor-linked cyclic AMP systems in rat neostriatum. Some dopamine and opiate receptors, as well as most of the phosphodiesterase activity, are associated with local neuronal elements, while beta-adrenoceptor, adenosine and PGE1 alterations in cyclic AMP are not. The potentiation of the beta-adrenoceptor and PGE1 responses suggests that they may occur in glial cells. In addition, the pool of adenylate cyclase destroyed by kainic acid appears to make little contribution to normal levels of cyclic AMP in the tissue.
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PMID:Receptor-linked cyclic AMP systems in rat neostriatum: differential localization revealed by kainic acid injection. 2 87

Behavioral sensitization of the gill-withdrawal reflex of Aplysia is the result of a prolonged increase in transmitter release from the presynaptic terminals of sensory neurons. Earlier work suggested that this presynaptic facilitation might be mediated by a serotonin-sensitive adenylate cyclase in the sensory neuron terminals. Here we present evidence that presynaptic facilitation results from a cyclic AMP-dependent increase in the calcium current that underlies action potentials in the sensory neurons. The action potentials of sensory neuron cell bodies have, in addition to a sodium current, a calcium current that is enhanced by blocking the opposing potassium current with tetraethylammonium. Under these conditions, the action potentials show a slowly repolarizing plateau that follows the Nernst potential for a calcium electrode and serves as a sensitive assay for changes in calcium current. Stimulation of the pathway that mediates sensitization, incubation with serotonin or phosphodiesterase inhibitors, or intracellular injection of cyclic AMP produces an increase in the calcium plateau in the presence of tetraethylammonium. In addition, both before and after sensitizing stimulation, the duration of the plateau potential parallels transmitter release as measured by the amplitude of monosynaptic excitatory postsynaptic potentials evoked in the motor neurons by intracellular stimulation of single sensory neurons. These results are consistent with the idea that presynaptic facilitation is caused by a cyclic AMP-mediated increase in a voltage-sensitive calcium current in sensory neuron presynaptic terminals. This synaptic action is novel in that it can produce little or no change in the resting potential, is of long duration, and exerts its influence directly on a conductance triggered by the action potential, rather than on non-voltage-sensitive conductances, as is typical of conventional synaptic actions.
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PMID:Presynaptic modulation of voltage-dependent Ca2+ current: mechanism for behavioral sensitization in Aplysia californica. 2 27

It is well-known that the cAMP-adenylate cyclase system is important in mediating the effects of numerous hormones. We investigated the age-dependent behaviour of this system in aortas and femoral arteries of male Wistar rats (at the age of 10 days, 1, 4, 8, 12, and 22 months). It was found that: The basic adenylate cyclase activity had considerably been decreased beyond the first month of life, thereafter it was almost constant. The response of adenylate cyclase to guanylyl-imidodi-phosphate and NaF had essentially been elevated since the 4th month of age. The possibility of stimulating the cAMP generation due to epinephrine and histamine had substantially been increased since the 12th month of age. Besides the ability of adrenaline and histamine to stimulate the formation of cyclic AMP was investigated in broken cell preparation and intact cells of smooth muscle of the aorta and femoral artery of rats which had been subjected to daily intermittend immobilization of 1, 3, and 17 weeks. It was found that this type of stress led to an instability of the blood pressure which was associated with an increase in the sensitivity of adenylate cyclase in the broken cell preparations from the arteries to adrenaline and histamine and with a heightened cyclic AMP response to the two hormones in the intact arterial smooth muscle cells. The sensitivity of cardiac adenylate cyclase for adrenaline remained unchanged.
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PMID:[Adenyl cyclase activity and the stimulation of adenosine 3',5'-cyclic monophosphate in blood vessel walls during ageing and under stress (author's transl)]. 2 10

The superior cervical ganglion (SCG) of the guinea pig has been investigated by a multidisciplinary approach. Dopamine (50 micron) produced no increase in cyclic AMP levels above control values of 27.9 pmole/mg protein, but 50 micron isoproterenol produced cyclic AMP levels of 210 pmole/mg protein, indicating the existence of a beta-adrenergic receptor-adenylate cyclase complex. The SIF cells were studied by fluorescence histochemistry, which indicated that two morphological types were present. A few Type I cells of the guinea pig SCG were solitary, but most were present in clusters containing many Type II cells. Immunohistochemical localization of antibodies to dopamine-beta-hydroxylase (DBH) and phenylethanolamine-N-methyltransferase (PNMT) demonstrated that types of SIF cell localize antibodies to DBH but not PNMT, providing strong evidence that norepinephrine is the neurotransmitter for all the SIF cells of the guinea pig SCG. Determination of the ratio of norepinephrine to dopamine confirmed that no other dopamine pools exist in the guinea pig SCG.
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PMID:SIF cells, cyclic AMP responses, and catecholamines of the guinea pig superior cervical ganglion. 2 97

The norepinephrine (NE)-induced accumulation of cyclic AMP in incubated tissue slices of mouse lung was inhibited by chlorpromazine (CPZ) and to a lesser extent by haloperidol. In particulate lung fractions both agents blocked dopamine-sensitive adenylate cyclase to a greater degree than the NE-responsive enzyme. Again CPZ was more potent than haloperidol. Acute injections (1/2--8h) of the neuroleptics usually resulted in lower steady state levels of pulmonary cyclic AMP and cyclic GMP following rapid (0.5 sec) tissue inactivation by microwave irradiation. On a subchronic injection schedule, the in vivo levels of pulmonary cyclic AMP tended to increase.
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PMID:Role of neuroleptic agents on mouse pulmonary cyclic nucleotide systems. 3 96

1. Adenylate cyclase (EC 4.6.1.1) activity has been determined in the parotid and sublingual glands of the mouse. Optimal activity of the enzyme was obtained at a Mg2+-concentration of 8 mM at pH 8.2, using AMP-PNP as the substrate. 2. Cyclic AMP degradation during the adenylate cyclase assay was relatively high in both the homogenate and the 40,000 g pellet-fraction of the glands. Theophylline was effective in inhibiting this degradation only in the parotid hemogenate, whereas isobutylmethylxanthine inhibited the cyclic AMP degradation in both salivary glands. Using the latter phosphodiesterase inhibitor, we observed a higher adenylate cyclase activity in the sublingual glands than in the parotid glands. 3. Various receptor-selective sympathetic and parasympathetic agonists and antagonists have been tested for their capacity to influence the adenylate cyclase activity and the glycoprotein secretion in the parotid and sublingual glands of the mouse, in vitro. (a) The parotid glycoprotein secretion was increased by beta-adrenergic agonists, which stimulate adenylate cyclase, and by cholinergic muscarinic drugs, which do not activate this enzyme. The adrenergic alpha-agonist phenylephrine appeared to be involved neither in the glycoprotein secretion nor in the direct regulation of the adenylate cyclase activity. (b) The sublingual protein and mucin secretion was increased by cholinergic muscarinic agents. The over-all protein secretion was stimulated also by phenylephrine, but this effect could be blocked by propranolol. The adenylate cyclase activity in membrane preparations was not stimulated by these secretogogues.
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PMID:Comparison of adenylate cyclase activity and in vitro secretion in the parotid and sublingual glands of the mouse. 3 65

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