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 the guinea pig myometrium, muscarinic receptor activation leads to contraction and elicits two biochemical responses viz. an increased formation of inositol phosphates (via a guanine nucleotide regulatory protein, distinct from the stimulatory and inhibitory G proteins of the adenylate cyclase system and a decreased synthesis of cyclic AMP involving inhibitory G protein activation. We now describe two major differences in the effects of muscarinic agonists. First, the greater potency of carbachol in inhibiting cyclic AMP formation (EC50 = 8 nM) than in stimulating the accumulation of inositol phosphates and tension (EC50 = 15 and 2 microM, respectively). Second, carbachol, oxotremorine and pilocarpine were equally effective in eliciting cyclic AMP inhibition but the order of potency for inositol phosphate formation was carbachol greater than oxotremorine and pilocarpine was without effect. The partial agonists, pilocarpine and oxotremorine, inhibited carbachol-mediated inositol phosphate formation. Pirenzepine, selective for muscarinic M1 receptor subtype, displayed a low affinity for antagonizing cyclic AMP inhibition, inositol phosphate generation and tension due to carbachol (Ki = 286, 92 and 110 nM, respectively). AF-DX116 (11-[( 2-[(diethylamino)methyl]-1- piperidinyl]acetyl)-5,11-dihydro-6H-pyrido[2,3-b][1,4]benzodiazepine- 6-one), selective for cardiac M2 receptors blocked cyclic AMP inhibition with high affinity (Ki = 1.14 nM) while it antagonized inositol phosphate formation with low affinity (Ki = 346 nM). Both high (Ki = 1 nM) and low (Ki = 100 nM) affinities were displayed by AF-DX116 in antagonizing contractions due to carbachol (24 and 76% inhibition, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pharmacological evidence for distinct muscarinic receptor subtypes coupled to the inhibition of adenylate cyclase and to the increased generation of inositol phosphates in the guinea pig myometrium. 215 62

Extracellular calcium (Ca2+) is the major physiological regulator of parathyroid function; high Ca2+ decreases PTH secretion as well as reduces cAMP accumulation. There is an increasing body of evidence suggesting the presence of a receptor-like mechanism at the surface of the parathyroid cell which mediates these and other actions of Ca2+. In the present studies we used the lectin Concanavalin-A (Con-A) to investigate the possible role of carbohydrate moieties in the regulation of cAMP metabolism by Ca2+ in bovine parathyroid cells, which is thought to involve inhibition of adenylate cyclase via activation of the guanine nucleotide regulatory protein Gi. Pretreatment of parathyroid cells with Con-A for 15-60 min significantly reversed the inhibitory effect of high Ca2+ on dopamine-stimulated cAMP accumulation, reducing the inhibition at 3 mM Ca2+ from 70 +/- 3% to 30 +/- 3%. This effect was also observed in the absence of preincubation and with concentrations of Con-A as low as 40 micrograms/ml and was reversed by alpha-methyl-D-glucoside, a specific antagonist of the lectin. The lectin also reversed the inhibitory effects of Ca2+ (2-3 mM) on cAMP accumulation stimulated by isoproterenol and forskolin to a comparable extent. Prostaglandin F2 alpha-induced inhibition of cAMP accumulation (likewise mediated by Gi) was, however, not reversed by Con-A, suggesting that the lectin did not have a generalized effect on the cell surface or on receptors inhibiting adenylate cyclase. Moreover, fluoride-induced inhibition of cAMP accumulation was not reversed by Con-A, providing additional evidence that the lectin did not act at or distal to Gi (i.e. modulate Gi, adenylate cyclase, and/or phosphodiesterase). The present study suggests that Con-A may modulate the actions of extracellular Ca2+ on parathyroid secretion, possibly modifying the interaction of Ca2+ with the cell surface by affecting carbohydrate moieties that seem to be important in the Ca2(+)-sensing process. The structural element involved in Ca2+ sensing in the parathyroid cell may be a glycoprotein or closely associated with glycoproteins with carbohydrate chains containing alpha-methyl-D-glycoside.
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PMID:Effect of the lectin concanavalin-A on calcium-regulated adenosine 3',5'-monophosphate accumulation in bovine parathyroid cells. 215 77

We have recently shown that atrial natriuretic factor (ANF) inhibits adenylate cyclase activity in rat platelets where only one population of ANF receptors (ANF-R2) is present, indicating that ANF-R2 receptors may be coupled to the adenylate cyclase/cAMP system. In the present studies, we have used ring-deleted peptides which have been reported to interact with ANF-R2 receptors also called clearance receptors (C-ANF) without affecting the guanylate cyclase/cGMP system, to examine if these peptides can also inhibit the adenylate cyclase/cAMP system. Ring-deleted analog C-ANF4-23 like ANF99-126 inhibited the adenylate cyclase activity in a concentration-dependent manner in rat aorta, brain striatum, anterior pituitary, and adrenal cortical membranes. The maximal inhibition was about 50-60% with an apparent Ki between 0.1 and 1 nM. In addition, C-ANF4-23 also decreased the cAMP levels in vascular smooth muscle cells in a concentration-dependent manner without affecting the cGMP levels. The maximal decrease observed was about 60% with an apparent Ki of about 1 nM. Furthermore, C-ANF4-23 was also able to inhibit cAMP levels and progesterone secretion stimulated by luteinizing hormone in MA-10 cell line. Other smaller fragments of ANF with ring deletions were also able to inhibit the adenylate cyclase activity as well as cAMP levels. Furthermore, the stimulatory effects of various agonists such as 5'-(N-ethyl)carboxamidoadenosine, dopamine, and forskolin on adenylate cyclase activity and cAMP levels were also significantly inhibited by C-ANF4-23. The inhibitory effect of C-ANF4-23 on adenylate cyclase was dependent on the presence of GTP and was attenuated by pertussis toxin treatment. These results indicate that ANF-R2 receptors or so-called C-ANF receptors are coupled to the adenylate cyclase/cAMP signal transduction system through inhibitory guanine nucleotide regulatory protein.
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PMID:Ring-deleted analogs of atrial natriuretic factor inhibit adenylate cyclase/cAMP system. Possible coupling of clearance atrial natriuretic factor receptors to adenylate cyclase/cAMP signal transduction system. 216 Apr 62

Chronic exposure of cultured cell lines to ethanol results in a heterologous desensitization of receptors coupled to adenylate cyclase via GS, the stimulatory guanine nucleotide regulatory protein. This heterologous desensitization is accompanied by a decrease in alpha S, the GTP-binding subunit of GS. Ethanol-induced accumulation of extracellular adenosine is required for the development of heterologous desensitization. To determine the mechanism underlying the ethanol-dependent increase in extracellular adenosine, we investigated the effects of ethanol on the nucleoside transporter responsible for the bidirectional transport of adenosine into and out of the cell. We found that ethanol specifically and non-competitively inhibited nucleoside uptake. Inhibition of adenosine uptake was primarily due to decreased influx via the nucleoside transporter. Thus, ethanol-induced increases in extracellular adenosine appear to be due to inhibition of adenosine influx. After chronic exposure to ethanol, cells became tolerant to the acute effects of ethanol, i.e. ethanol no longer inhibited uptake and, consequently, no longer increased extracellular adenosine concentration. Taken together with our previous studies, these results suggest that acute ethanol inhibition of adenosine influx leads to an increase in extracellular adenosine which in turn activates adenosine A2 receptors to increase cyclic AMP levels, leading to desensitization of receptor-dependent cyclic AMP signal transduction after chronic exposure to ethanol. We next determined whether the same effects of ethanol also occur in alcoholics. We isolated lymphocytes from alcoholics and non-alcoholics and found that alcoholics had a 75% decrease in basal and adenosine receptor-stimulated cyclic AMP production compared with non-alcoholics. To determine whether these differences were due to exposure to ethanol in vivo or to a possible genetic difference between alcoholics and non-alcoholics, we grew lymphocytes in culture in the absence of ethanol. Adenosine receptor-stimulated cyclic AMP levels were higher in alcoholics than non-alcoholics. Moreover, cultured cells from alcoholics were more sensitive to the effects of chronic alcohol on cyclic AMP signal transduction than cells from non-alcoholics. Our results suggest that the cyclic AMP signal transduction system may reflect a genetic alteration in alcoholics and that studies in cultured lymphocytes may allow us to identify individuals at risk of developing alcoholism.
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PMID:Chronic ethanol-induced heterologous desensitization is mediated by changes in adenosine transport. 217 89

Recent studies have shown that, in addition to its well-known action to stimulate adenylate cyclase activity, parathyroid hormone (PTH) may stimulate the inositol phosphate second messenger system in its target tissues, bone and kidney. We have developed a membrane preparation of canine renal cortex to test this hypothesis. We also have examined the potential role of guanine nucleotides on the formation of inositol phosphates (IPs) in this tissue. Collagenase-dispersed tubules were labeled with [3H]inositol, and membranes containing labeled phospholipase C (PLC) substrates ([3H]phosphatidyl inositol, [3H]phosphatidylinositol monophosphate, and [3H]phosphatidylinositol bisphosphate) were prepared. bPTH-(1-34) (100 nM) rapidly increased levels of all measured [3H]IPs (IP1, IP2, and IP3) 1.6-1.7-fold within the first 30 s of stimulation. The half-maximal concentration for the response to bPTH-(1-34) was approximately 8 nM. GTP gamma S (100 microM), a nonhydrolyzable analog of GTP, also increased levels of the three [3H]IPs (1.8 to 2.8-fold). The half-maximal concentration for the response to GTP gamma S was approximately 30 microM. In the presence of GTP gamma S, bPTH-(1-34) increased levels of IPs by up to 2.7 times more than GTP gamma S alone. The results indicate that bPTH-(1-34) can stimulate the formation of inositol phosphates in the kidney and suggest that PTH may activate a receptor coupled to this effect through a guanine nucleotide regulatory protein.
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PMID:Parathyroid hormone stimulates formation of inositol phosphates in a membrane preparation of canine renal cortical tubular cells. 218 14

The review provides a survey of current knowledge about the changes in hormone-sensitive adenylate cyclase complex of erythroid cells. The basal enzyme activity decreases continuously during differentiation and maturation. Guanine nucleotides (GTP and GMP-P (NH)P) increase the adenylate cyclase activity of both early and late rabbit bone marrow erythroblasts. The stimulating effect of the beta 2-adrenergic drugs such as L-isoprenaline is limited to the immature cells. L-noradrenaline, a beta 1-agonist is inactive. The lack of response of non-dividing rabbit erythroblasts to beta-adrenergic stimuli is not due to loss of beta-receptors during differentiation, but to a decrease in the effectiveness of the coupling between the components of the system: receptor-guanine nucleotide regulatory protein-catalytic subunit. Prostaglandins E1 and E2 consistently enhance adenylate cyclase activity of erythroblasts on different stages of development. Erythropoietin (0.2 U/ml) causes a transient increase in the activity of adenylate cyclase, which is maximal by 20 min incubation of the cells in the presence of the hormone and disappears within 4 hours. The magnitude of the response to erythropoietin depends on the stage of erythroid cell development and is inverse related to the extent of previous hormonal stimulation of the cell.
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PMID:Adenylate cyclase system of differentiating erythroid cells. 228 99

The effects of purified Ca2+, phospholipid-dependent protein kinase (C-kinase) were studied on adenylate cyclase activity from rat brain striatum. C-kinase treatment of the membranes stimulated adenylate cyclase activity, the maximal stimulation between 50-80% was observed at 3.5 U/ml, whereas the catalytic subunit of cAMP dependent protein kinase did not show any effect on enzyme activity. The inclusion of Ca2+ and phosphatidyl serine did not augment the percent stimulation of adenylate cyclase by C-kinase, however EGTA inhibited the stimulatory effect of C-kinase on enzyme activity. Furthermore, the known inhibitors of C-kinase such as polymyxin-B and 1-(5-Isoquinoline sulfonyl)-2-methylpiperazine dihydrochloride (H-7) also inhibited the stimulatory effect of C-kinase on adenylate cyclase activity. In addition, in the presence of GTP the stimulatory effects of C-kinase on basal and N-Ethylcarboxamide adenosine- (NECA-), dopamine-(DA) and forskolin- (FSK) sensitive adenylate cyclase activities were augmented. On the other hand, the inhibitory effect of high concentrations of GTP on enzyme activity was attenuated by C-kinase treatment. In addition, oxotremorine inhibited adenylate cyclase activity in a concentration dependent manner, with an apparent Ki of about 10 microM and C-kinase treatment almost completely abolished this inhibition. These data suggest that C-kinase may play an important role in the regulation of adenylate cyclase activity possibly by interacting with a guanine nucleotide regulatory protein.
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PMID:Modulation of adenylate cyclase activity by Ca2+, phospholipid-dependent protein kinase in rat brain striatum. 230 80

Vasoactive intestinal polypeptide (VIP) was incubated in an adenylate cyclase assay with a particulate fraction of caudate-putamen (CP) tissue of the rat in order to examine the effect of the peptide on forskolin-activated adenylate cyclase in vitro. Forskolin induced an enhancement of cyclic AMP formation that was mediated by an effect on catalytic subunit and stimulatory guanine nucleotide regulatory protein (Ns). In our preparation, VIP did not influence basal adenylate cyclase activity or the stimulation by dopamine and sodium fluoride but, in the absence of guanylylimidodiphosphate (guanosine 5'-(beta, y-imido)-triphosphate) VIP inhibited the forskolin-stimulation of the enzyme in a noncompetitive manner. Met-encephalin, acting on a D-2 receptor-coupled putative inhibitory guanine nucleotide regulatory protein (Ni), inhibited the adenylate cyclase activity stimulated by forskolin to a slightly greater extent than VIP. When assayed together, these inhibition effects were additive, implying that the peptide receptors are not identical. The Ni-antagonist, MnCl2 completely blocked the inhibition of met-encephalin but had no significant effect on VIP-induced inhibition. In addition, pertussis toxin did not influence the effect of VIP on forskolin-stimulation in contrast to cholera toxin which did antagonize the VIP effect via the stimulatory guanine nucleotide regulatory protein (Ns). Furthermore, specific D-1 and D-2 dopaminergic receptor antagonists alpha(+)-flupentixol and spiperone had no effect on VIP-modulated forskolin-stimulated adenylate cyclase activity. These results suggest that the neuromodulatory effect of VIP is mediated by a Ns distinct from those involved in several adenylate cyclase pools sensitive to stimulation by dopamine and VIP in the rat striatum.
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PMID:The effect of vasoactive intestinal polypeptide (VIP) on forskolin stimulated adenylate cyclase in the caudate-putamen of the rat. 232 84

The validity of the hypothesis that cyclic AMP (cAMP) is the 2nd messenger for cell activation was reexamined. Some enzymological aspects of adenyl cyclase (AC) should cause concern: the lack of data on the stoichiometry of cAMP formation in mammalian systems and the unusual enzymatic properties, as well as lack of end-product inhibition and linearity. Furthermore, adenyl cyclase assays may lack precision and accuracy; this may depend on the organ studied. There are also problems of artefactual formation of cAMP during the work-up of cAMP extracts. Thus CrP, Pi, or ATP might influence this process and the actual measurement of cAMP, but solid data are apparently not available. Although a hormone-sensitive AC system has now been reconstituted from pure beta-adrenergic receptor, guanine nucleotide regulatory protein (Ns), and from bovine brain, the sensitivity to isoprenaline was very low and many questions remain--questions about the role of ions and Ns, in particular. The assumption that cAMP is the sole 2nd messenger is questioned since other nucleotides (AMP, ADP) and adenosine may change even more during hormone stimulation, and these compounds can also modulate protein kinase at concentrations often observed in vivo. Doubt over cAMP's role also stems from the observation that basal cAMP levels are sufficiently high to stimulate maximally protein kinase. Discrepancies between cAMP formation and lipolysis during isoprenaline or forskolin stimulation have been observed, and could indicate either compartmentalization of cAMP or alternatively disprove the cAMP hypothesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Is there a role for cAMP and adenyl cyclase? 241 Jul 32

In hypertensive cardiac hypertrophy, inotropic responsiveness of alpha and beta adrenergic stimuli is reduced. We have previously shown that hearts from two-kidney, one-clip renal hypertensive rats (RHR) have increased beta-adrenergic receptor density and a defect in the guanine nucleotide regulatory protein, leading to decreased adenylate cyclase activity. In spontaneously hypertensive rats (SHR), beta-receptor density was decreased with no change in adenylate cyclase. In these present experiments, we have shown that the alpha 1-adrenergic receptor changes are in the opposite direction, decreasing in RHR and increasing in SHR. All these changes are reversible within 4 weeks following removal of the clipped kidney in RHR, at which time blood pressure and heart weight have also returned towards normal. Further studies on the excitation-contraction pathway have indicated that c-AMP-stimulated protein kinase is decreased in SHR with no changes seen in RHR. Subcutaneous infusion of epinephrine leads to some increase of cardiac mass associated with decreased beta-adrenergic receptors element and decreased adenylate cyclase activity. However, following angiotensin II infusion, even though hypertrophy is more pronounced, no changes in receptors or cyclase are detected. We conclude that different models of hypertensive cardiac hypertrophy associated with different biochemical defects in the adrenergic excitation response pathway, and that if some of these changes become irreversible, further cardiac deterioration and even heart failure may ensue.
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PMID:Excitation-contraction coupling in hypertrophied myocardium. 241 74


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