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:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Ca2+ content of glial tumor (C6) cells was reduced approximately 5-fold by repeated treatment with media containing ethylene glycol bis(beta-aminoethyl ether) N,N'-tetraacetic acid (EGTA) without loss of cellular viability. The ability of the cells to accumulate cAMP in response to beta-adrenergic agonists was reduced 60 to 70% following Ca2+ depletion. Ca2+ did not affect the apparent KACT for norepinephrine, nor did it change the concentration of propranolol required to produce 50% inhibition of the maximal norepinephrine response. Phentolamine did not alter the Ca2+ dependence of the response. The binding of dihydroalprenolol by intact C6 cells was not influenced by Ca2+. Furthermore, pretreatment with norepinephrine did not affect the Ca2+ dependence of cAMP accumulation. The effects of Ca2+, therefore, appeared to be exerted on components of the adenylate cyclase system other than the catecholamine receptor. Micromolar free Ca2+ concentration in the extracellular medium were sufficient to restore a maximal norepinephrine response to Ca2+-depeleted cells. The effect of Ca2+ on cAMP accumulation in response to hormone was immediate and was rapidly reversible upon the addition of EGTA in excess of the cation. Cells in media containing Ca2+ exhibited a characteristic biphasic time course of cAMP accumulation; with Ca2+-depleted cells cAMP was accumulated more slowly and the subsequent decline in cAMP content was also reduced. Verapamil, an inhibitor of plasmalemmal Ca2+ influx, decreased the Ca2+-dependent component of the cAMP accumulation when added prior to the cation. The effect of Ca2+ on cAMP accumulation was reduced more extensively by pretreatment of cells at 45 degrees C under Ca2+-depleted (80% loss) than under Ca2+-restored (30% loss) conditions. Trifluoperazine at micromolar concentrations decreased the Ca2+-dependent increment in accumulation of cAMP in Ca2+-restored cells. This inhibition was not overcome by increasing concentrations of norepinephrine or of extracellular Ca2+.
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PMID:Calcium dependence of hormone-stimulated cAMP accumulation in intact glial tumor cells. 22 32

In the dog iris sphincter, muscarinic acetylcholine receptors are coupled either to the stimulation of phospholipase C and muscle contraction or to the stimulation of adenylate cyclase and muscle relaxation, this was found to be dependent upon the concentration of the muscarinic agonist. In contrast to the dog, muscarinic receptors in iris sphincters from different mammalian species were found to be coupled to phospholipase C and contraction at all concentrations of carbachol investigated (1-100 microM). In the dog sphincter, lower concentrations (less than 5 microM) of carbachol stimulated myo-inositol 1,4,5-trisphosphate (IP3) production, inhibited cAMP formation and induced contraction, and higher concentrations (greater than 5 microM) enhanced cAMP formation, inhibited IP3 production and induced relaxation. The mechanisms for the stimulatory effects on cAMP formation through muscarinic receptors were investigated. Carbachol (25 microM) increased both basal and isoproterenol- and forskolin-stimulated cAMP levels. Atropine inhibited the carbachol-stimulated increase in cAMP levels in a dose-dependent manner with an IC50 of 9 nM. Intracellular Ca2+, derived from IP3-induced Ca2+ release and/or from muscarinic receptor-operated Ca2+ influx, and protein kinase C may mediate the muscarinic receptor-linked rise in intracellular cAMP. This conclusion is supported by the following findings. (1) At short time intervals (less than 1 min) carbachol (25 microM) increased IP3 production and contraction and this was followed (between 1 and 20 min) by cAMP formation and muscle relaxation. (2) Carbachol-stimulated IP3 production was detected at a concentration of the agonist 26-fold lower than that required for cAMP formation, and it was completely blocked by the phorbol ester, phorbol 12,13-dibutyrate (50 nM). (3) A Ca(2+)-calmodulin stimulated adenylate cyclase was demonstrated in membranes from dog iris sphincter but not in that from rabbit and bovine. (4) Trifluoperazine (0.1 microM), a calmodulin antagonist, inhibited the carbachol-stimulated cAMP accumulation. (5) The Ca2+ ionophore A23187 and the phorbol ester increased cAMP production in a dose-dependent manner. A23187 potentiated cAMP production induced by either carbachol or by the phorbol ester. (6) Muscarinic stimulation of cAMP production persisted even after the tissue was pretreated with the phorbol ester or staurosporine. (7) Nifedipine (0.01-0.5 microM), a Ca2+ channel antagonist, inhibited carbachol stimulation of cAMP production, suggesting the presence of a muscarinic receptor-operated Ca2+ influx pathway in this tissue.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Carbachol stimulates adenylate cyclase and phospholipase C and muscle contraction-relaxation in a reciprocal manner in dog iris sphincter smooth muscle. 132 47

Calmodulin is a protein with calcium-dependent binding sites. Binding of calcium ions induces changes in the conformation and activation of many enzymes such as adenylate cyclase, guanylate cyclase, ATPase. Neuroleptic drugs bind calmodulin. Trifluoperazine has a very high affinity for calmodulin. Tricyclic antidepressants and benzodiazepines also bind calmodulin. Binding of neuroleptics inhibits many biological phenomena such as lymphocyte endocytosis, platelets aggregation. When neuroleptics are administrated chronically, calmodulin could act in regulation of the receptors specially in the drug induced supersensitivity of striatum dopamine receptors. These experiments about the regulation of the receptors mediated by calmodulin have been performed ten years ago and their results were not confirmed later. Moreover, binding of calmodulin is not specific of neuroleptic drugs. The effects of neuroleptics on calmodulin, only observed in vitro or with animals, seem to be mainly related to structural properties of the drugs.
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PMID:Could the interaction of neuroleptics with calmodulin be an "explanation" of the psychotropic effects? 168 72

The calmodulin and calcium dependence of human adenylate cyclase from the second part of the duodenum was assessed in washed particulate preparations of biopsy specimens by investigating (a) the concentration dependent effects of free [Ca2+] on enzyme activity, (b) the effects of exogenous calmodulin on enzyme activity in ethylene glycol bis (b-aminoethyl ether)N,N'-tetra-acetic acid (EGTA) washed particulate preparations, and (c) the effects of calmodulin antagonists on enzyme activity. Both basal (IC50 = 193.75 (57.5) nmol/l (mean (SEM)) and NaF stimulated (IC50 = 188.0 (44.0) nmol/l) adenylate cyclase activity was strongly inhibited by free [Ca2+] greater than 90 nmol/l. Free [Ca2+] less than 90 nmol/l had no effect on adenylate cyclase activity. NaF stimulated adenylate cyclase activity was inhibited by 50% at 2.5 mmol/l EGTA. This inhibition could not be reversed by free Ca2+. The addition of exogenous calmodulin to EGTA (5 mmol/l) washed particulate preparations failed to stimulate adenylate cyclase activity. Trifluoperazine and N-(8-aminohexyl)-5-IODO-1-naphthalene-sulphonamide (IODO 8) did not significantly inhibit basal and NaF stimulated adenylate cyclase activity when measured at concentrations of up to 100 mumol/l. These results suggest that human duodenal adenylate cyclase activity is calmodulin independent but is affected by changes in free [Ca2+].
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PMID:Calmodulin independence of human duodenal adenylate cyclase. 175 61

The making and sealing of a tight junction (TJ) requires cell-cell contacts and Ca2+, and can be gauged through the development of transepithelial electrical resistance (TER) and the accumulation of ZO-1 peptide at the cell borders. We observe that pertussis toxin increases TER, while AIF3 and carbamil choline (carbachol) inhibit it, and 5-guanylylimidodiphosphate (GTPTs) blocks the development of a cell border pattern of ZO-1, suggesting that G-proteins are involved. Phospholipase C (PLC) and protein kinase C (PKC) probably participate in these processes since (i) activation of PLC by thyrotropin-1 releasing hormone increases TER, and its inhibition by neomycin blocks the development of this resistance; (ii) 1,2-dioctanoylglycerol, an activator of PKC, stimulates TER development, while polymyxin B and 1-(5-isoquinoline sulfonyl)-2-methyl-piperazine dihydrochloride (H7), which inhibit this enzyme, abolish TER. Addition of 3-isobutyl-1-methyl-xanthine, dB-cAMP or forskolin do not enhance the value of TER, but have just the opposite effect. Trifluoperazine and calmidazoline inhibit TER development, suggesting that calmodulin (CaM) also plays a role in junction formation. These results indicate that junction formation may be controlled by a network of reactions where G-proteins, phospholipase C, adenylate cyclase, protein kinase C and CaM are involved.
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PMID:Assembly and sealing of tight junctions: possible participation of G-proteins, phospholipase C, protein kinase C and calmodulin. 192 Mar 85

Inhibitors of calmodulin [trifluoperazine, chlorpromazine, pimozide, and calmidazolium N-(6-aminohexyl)5-chloro-1-napthalenesulphonamide (W7)] and calmodulin antibodies were used to investigate the role of calmodulin in the response of Y-1 mouse adrenal cells to ACTH, with particular reference to events in the plasma membrane. In whole cells it was found that two responses (production of steroids and cAMP) to two stimulating agents (ACTH and forskolin) were inhibited by trifluoperazine at concentrations consistent with those involved in binding of the inhibitor to pure calmodulin (10-25 microM). The steroidogenic responses were also inhibited by the three other inhibitors of calmodulin (chlorpromazine, calmidazolium, and W-7). Trifluoperazine and pimozide (1-500 microM) did not inhibit binding of an [125I]ACTH analog to highly purified plasma membranes of Y-1 cells or to the cells themselves. With Y-1 plasma membranes it was found that trifluoperazine, pimozide, W-7, and calmodulin antibodies inhibited the increase in adenylate cyclase activity in response to ACTH, but not the cyclase responses to cholera toxin or forskolin. Moreover, the effect of cholera toxin on the ADP-ribosylation of specific membrane substrates was independent of the presence or absence of endogenous and/or exogenous Ca2+/calmodulin. The response of adenylate cyclase to ACTH was also decreased in plasma membranes from which calmodulin was removed by washing, and exogenous calmodulin partly reversed this decrease. Anti-calmodulin immunoglobulin inhibited the stimulation of adenylate cyclase produced in plasma membrane by ACTH, but was without effect on the responses to cholera toxin and forskolin. Exogenous calmodulin partly reversed the inhibition of stimulation by ACTH of adenylate cyclase produced by the antibody. It is concluded that calmodulin influences the events taking place in the plasma membrane in response to ACTH, after the binding of the hormone to its receptor and before the action of the G protein (Gs). That is, calmodulin is involved in coupling the occupied receptor to Gs. The effects of inhibitors of calmodulin in whole cells must involve some additional effect(s) requiring the intact cell.
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PMID:The role of calmodulin in the responses to adrenocorticotropin of plasma membranes from adrenal cells. 215 26

Experiments using a cytochemical method showed the presence of a specific precipitate of the adenylate cyclase (AC) reaction on the sarcolemma and in the subsarcolemmal cisternae and junctional sarcoplasmic reticulum in rat cardiomyocytes. The localization of AC in the given organelles draws attention to the mutual association between Ca2+ ions and cAMP in the modulation of cardiac contractions. Trifluoperazine (TFP) and chlorpromazine (CHP) are known as phenothiazine derivatives inhibiting cellular enzymatic processes dependent on calmodulin and Ca2+. AC is one of these enzyme systems. The administration of TFP and CHP (both in a dose of 0.1 and 3 mmol.1(-1)) did not affect the cytochemical localization of the enzyme. Quantitative determination of 125I-cAMP by RIA showed that CHP inhibited AC activity in both concentrations. TFP, on the other hand, did not inhibit AC activity in 0.1 mmol.1(-1) concentration and actually stimulated its activation in 3 mmol.1(-1) concentration. The different action of the phenothiazine derivatives on AC activity can be attributed partly to the different affinity of TFP and CHP for calmodulin and partly to interaction of the inhibitor-calmodulin complex with the phosphodiesterase (PDE) system.
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PMID:The effect of calmodulin inhibitors of the adenylate cyclase system. 216 69

In order to evaluate the relationship between the calcium-calmodulin system and the adenylate cyclase activity of vascular smooth muscle, we examined the effects of several calcium effectors on the basal and stimulated adenylate cyclase activity. Thoracic aortae were removed from Wistar rats and the tissues were homogenated with cold homogenizing buffer containing 1 nM EDTA. Membrane protein fraction of the smooth muscle was prepared by centrifugation at 37,000 g. In this procedure, endogenous guanine nucleotides and contractile proteins remained. The protein fraction was incubated with 2 mM EGTA, 50 microM trifluoperazine, 0.1 microM A23187 or 25 microM calmodulin under basal and stimulated (50 microM isoproterenol, 100 microM GTP and 50 microM forskolin) conditions. The adenylate cyclase activity was determined by a method modified in our laboratory using double isotope counting. Trifluoperazine reduced the basal adenylate cyclase activity significantly (p less than 0.01) as well as the stimulated enzyme activities. A23187 did not affect the basal enzyme activity, but elevated the isoproterenol stimulated enzyme activity significantly (p less than 0.05). EGTA did not affect the basal and stimulated adenylate cyclase activities. Calmodulin elevated the basal enzyme activity significantly (p less than 0.02), but did not affect the stimulated enzyme activities. These results suggest that the calcium-calmodulin system is necessary for maintenance of the adenylate cyclase activity of vascular smooth muscle cells. The calmodulin acting site is considered to be the catalytic subunit, and stimulation of the enzyme is accelerated by calcium ion.
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PMID:Role of the calcium-calmodulin system in the adenylate cyclase activity of vascular smooth muscle. 250 33

The calcium modulation of the cyclic 3',5'-adenosine monophosphate (cAMP) response to parathyroid hormone (PTH) was studied in a clonal osteosarcoma cell line ROS 17/2.8. CaCl2 was found to stimulate the PTH-sensitive cAMP response of intact cells. At the maximal concentration of 1 mM CaCl2, the maximum response to PTH was increased, but the ED50 for PTH and the time course of maximal cAMP production were not affected. Verapamil blunted, while the cation ionophore A23187 enhanced, the stimulatory effect of CaCl2. Trifluoperazine (TFP) and N-(6-aminohexyl-5-Cl-naphthalene sulfonamide) (W-7) inhibited the stimulatory effect of CaCl2. In membranes prepared in the presence of 0.1 mM CaCl2, a biphasic effect of CaCl2 was demonstrated: stimulation at concentrations of 60-100 microM, and an inhibition above 200 microM, when adenylate cyclase was assayed in the presence of 200 microM EGTA. Addition of exogenous calmodulin to membranes prepared in the presence of EGTA did not have any effect on the PTH-sensitive adenylate cyclase activity, suggesting that endogenous calmodulin was not effectively stripped from the membranes by EGTA treatment. It is concluded that Ca2+ has both a stimulatory and an inhibitory role in modulating PTH-sensitive adenylate cyclase in ROS 17/2.8 cells by as yet unknown mechanisms, and that the involvement of endogenous calmodulin is implicated.
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PMID:Calcium modulation of the parathyroid hormone-sensitive adenylate cyclase in ROS 17/2.8 cells: effects of N-(6-aminohexyl-5-Cl-naphthalene sulfonamide) (W-7) and trifluoperazine (TFP). 255 49

The effects of the monoamine depleting drugs oxypertine, tetrabenazine and reserpine were compared with those of the dopamine receptor antagonists, chlorpromazine and trifluoperazine, on behavioural and biochemical indices of dopamine function in the brain. Oxypertine (0.625-20 mg/kg, i.p.), chlorpromazine (0.625-20 mg/kg i.p.) and trifluoperazine (0.0625-2.0 mg/kg i.p.), administered to rats 1 hr previously, inhibited stereotyped behaviour induced by both amphetamine (5.0 mg/kg i.p.) and apomorphine (1.0 mg/kg, s.c.) in a dose-dependent manner. Tetrabenazine (0.625-20 mg/kg i.p., 1 hr previously) inhibited stereotypy induced by amphetamine but not that induced by apomorphine. Reserpine (0.1 10 mg/kg i.p., 6 hr previously) did not inhibit, but in larger doses, tended to enhance the stereotyped responses to both amphetamine and apomorphine. Oxypertine (10 mg/kg, i.p., 1 hr previously), tetrabenazine (5 mg/kg i.p., 1 hr previously) and reserpine (2.5 mg/kg i.p., 6 hr previously) reduced the content of dopamine in the striatum but increased the concentrations of homovanillic acid (HVA) and 3,4-dihydroxyphenylacetic acid (DOPAC). Chlorpromazine (5 mg/kg i.p.) and trifluoperazine (0.5 mg/kg i.p.), given 1 hr previously, did not alter concentrations of dopamine in the striatum but increased those of HVA and DOPAC. Oxypertine, chlorpromazine and trifluoperazine weakly inhibited dopamine-stimulated adenylate cyclase in homogenates of the striatum in the rat. Tetrabenazine and reserpine had no effect. Similarly, trifluoperazine and chlorpromazine displaced the specific binding of [3H]piflutixol to membranes from the striatum. Oxypertine also was weakly effective, but tetrabenazine and reserpine were without effect. Trifluoperazine, chlorpromazine and oxypertine displaced specific binding of [3H]spiperone and [3H]N,n-propylnorapomorphine (NPA) to preparations of the striatum.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of the acute actions of amine-depleting drugs and dopamine receptor antagonists on dopamine function in the brain in rats. 288 88


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