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 binding of [3H]forskolin to a homogeneous population of binding sites in rat striatum was enhanced by NaF, guanine nucleotides and MgCl2. These effects of NaF and guanylylimidodiphosphate (Gpp(NH)p) were synergistic with MgCl2, but NaF and Gpp(NH)p together elicited no greater enhancement of [3H]forskolin binding. These data suggest that [3H]forskolin may label a site which is modulated by the guanine nucleotide regulatory subunit which mediates the stimulation of adenylate cyclase (NS). The D1 dopamine receptor is known to stimulate adenylate cyclase via NS. In rat striatum, the Bmax of [3H]forskolin binding sites in the presence of MgCl2 and NaF was approximately two fold greater than the Bmax of [3H]SCH23390-labeled D1 dopamine receptors. Incubation of striatal homogenates with the protein modifying reagent EEDQ elicited a concentration-dependent decrease in the binding of both [3H]SCH23390 and [3H]forskolin, although EEDQ was approximately 14 fold more potent at inactivating the D1 dopamine receptor. Following in vivo administration of EEDQ there was no significant effect on [3H]forskolin binding sites using a dose of EEDQ that irreversibly inactivated greater than 90% of D1 dopamine receptors. These data suggest that EEDQ is a suitable tool for investigating changes in the stoichiometry of receptors and their second messenger systems.
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PMID:Differential effect of N-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline (EEDQ) on [3H]SCH23390 and [3H]forskolin binding in rat striatum. 264 96

The concentration requirements of calmodulin in altering basal, GTP-, and dopamine-stimulated adenylate cyclase activities in an EGTA-washed particulate fraction from bovine striatum were examined. In the bovine striatal particulate fraction, calmodulin activated basal adenylate cyclase activity 3.5-fold, with an EC50 of 110 nM. Calmodulin also potentiated the activation of adenylate cyclase by GTP by decreasing the EC50 for GTP from 303 +/- 56 nM to 60 +/- 10 nM. Calmodulin did not alter the maximal response to GTP. The EC50 for calmodulin in potentiating the GTP response was only 11 nM as compared to 110 nM for activation of basal activity. Similarly, calmodulin increased the maximal stimulation of adenylate cyclase by dopamine by 50-60%. The EC50 for calmodulin in eliciting this response was 35 nM. These data demonstrate that calmodulin can both activate basal adenylate cyclase and potentiate adenylate cyclase activities that involve the activating GTP-binding protein, Ns. Mechanisms that involve potentiation of Ns-mediated effects are much more sensitive to calmodulin than is the activation of basal adenylate cyclase activity. Potentiation of GTP-stimulated adenylate cyclase activity by calmodulin was apparent at 3 and 5 mM MgCl2, but not at 1 or 10 mM MgCl2. These data further support a role for calmodulin in hormonal signalling and suggest that calmodulin can regulate cyclic AMP formation by more than one mechanism.
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PMID:Differential regulation by calmodulin of basal, GTP-, and dopamine-stimulated adenylate cyclase activities in bovine striatum. 283 18

An iodinated photosensitive derivative of norepinephine, N-(p-azido-m-iodophenethylamidoisobutyl)-norepinephrine (NAIN), has been synthesized and characterized. NAIN stimulated adenylate cyclase activity in guinea pig lung membranes in a manner similar to (-)-isoproterenol and was inhibited by (-)-alprenolol. NAIN was shown to compete with [125I]iodocyanobenzylpindolol for the beta-adrenergic receptor in guinea pig lung membranes with an affinity which was dependent on the presence of guanyl nucleotides. Carrier-free radioiodinated NAIN ([125I]NAIN) was used at 2 nM to photoaffinity label the beta-adrenergic receptor in guinea pig lung membranes. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of (-)-alprenolol (1 microM) protectable [125I]NAIN labeling showed the same molecular mass polypeptide (65 kDa) that was specifically derivatized with the antagonist photolabel [125I]iodoazidobenzylpindolol. Specific labeling of the beta-adrenergic receptor with [125I]NAIN was dependent on the presence of MgCl2 and the absence of guanyl nucleotide. Guanosine-5'-O-(3-thiotriphosphate (100 microM) abolished specific labeling by [125I]NAIN. N-Ethylmaleimide (2 mM) in the presence of [125I]NAIN protected against the magnesium and guanyl nucleotide effect. These data show that NAIN is an agonist photolabel for the beta-adrenergic receptor.
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PMID:Photoaffinity labeling the beta-adrenergic receptor with an iodoazido derivative of norepinephrine. 284 70

The hormone-sensitive adenylate cyclase system of plasma membrane is composed of at least three types of proteins: hormone receptors, activatory (Gs) and inhibitory (Gi) guanine nucleotide-regulatory proteins and the catalytic unit (C). Abnormal hormonal regulations of platelet adenylate cyclase in both humans and experimental animals have been reported to occur in hypertension. However, little is known about the mechanisms for these alterations. The aim of the present study was to compare the activity of C and the inhibitory capacity of Gi in platelet membranes from spontaneously hypertensive rats (SHR) and their normotensive controls (WKY). Adenylate cyclase activity of 40,000 g membranes was assessed at pH 7.5 with 0.1 mM (alpha-32P) ATP and an appropriate bivalent cation (Mn2+ or Mg2+). Under incubation conditions that uncoupled C from Gs and Gi (25 mM MnCL2, 100 microM forskolin), a significantly lower adenylate cyclase activity was measured in membranes from SHR rats (2.07 +/- 0.12 vs 2.36 +/- 0.1 nmol cAMP/mn/mg of protein, p less than 0.05). This difference between the two strains was also observed in platelet homogenates. In a second kind of experiments, membranes were incubated with 2.1 mM MgCl2 instead of MnCl2. In both strains of rats, low concentrations of Gpp (NH)p (10 to 300 nM) inhibited adenylate cyclase activity when stimulated by 50 microM forskolin. However, the maximal extent of inhibition was significantly reduced in hypertensive rats (49.7 +/- 2.4 vs 60.5 +/- 2.3 p. 100, p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Anomalies of the adenylate cyclase system in platelets of the SHR rat]. 284 72

The determination and characterization of a cannabinoid receptor from brain are reported. A biologically active bicyclic cannabinoid analgetic CP-55,940 was tritium-labeled to high specific activity. Conditions for binding to rat brain P2 membranes and synaptosomes were established. The pH optimum was between 7 and 8, and specific binding could be eliminated by heating the membranes to 60 degrees. Binding to the P2 membranes was linear within the range of 10 to 50 micrograms of protein/ml. Specific binding (defined as total binding displaced by 1 microM delta 9-tetrahydrocannabinol (delta 9-THC) or 100 nM desacetyllevonantradol) was saturable. The Kd determined from Scatchard analysis was 133 pM, and the Bmax for rat cortical P2 membranes was 1.85 pmol/mg of protein. The Hill coefficient for [3H]CP-55,940 approximated 1, indicating that, under the conditions of assay, a single class of binding sites was determined that did not exhibit cooperativity. The binding was rapid (kon approximately 2.6 x 10(-4) pM-1 min-1) and reversible (Koff approximately 0.016 min-1) and (koff' greater than 0.06 min-1). The two Kd values estimated from the kinetic constants approximately 55 pM and exceeded 200 pM, respectively. The binding of the agonist ligand [3H]CP-55,940 was decreased by the nonhydrolyzable GTP analog guanylylimidodiphosphate. The guanine nucleotide induced a more rapid dissociation of the ligand from the binding site, consistent with an allosteric regulation of the putative receptor by a G protein. The binding was also sensitive to MgCl2 and CaCl2. Binding of [3H]CP-55,940 was displaced by cannabinoid drugs in the following order of potency: CP-55,940 greater than or equal to desacetyllevonantradol greater than 11-OH-delta 9-THC = delta 9-THC greater than cannabinol. Cannabidiol and cannabigerol displaced [3H]CP-55,940 by less than 50% at 1 microM concentrations. The (-)-isomer of CP-55,940 displaced with 50-fold greater potency than the (+)-isomer. This pharmacology is comparable to both the inhibition of adenylate cyclase in vitro and the analgetic activity of these compounds in vivo. The criteria for a high affinity, stereoselective, pharmacologically distinct cannabinoid receptor in brain tissue have been fulfilled.
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PMID:Determination and characterization of a cannabinoid receptor in rat brain. 284 84

Cyclic AMP accumulation in rat parotid slices is only transiently stimulated by isoproterenol (Harper, J.F. and Brooker, G. Molec. Pharmacol. 13:1048-1059, 1977); the progressive loss of isoproterenol effect is termed desensitization. In this report we show that desensitized cyclic AMP accumulation is associated with desensitization of adenylate cyclase in subsequently prepared membranes and in adenylate cyclase that has been detergent-solubilized from desensitized membranes. Adenylate cyclase in membranes made from isoproterenol-desensitized tissue is desensitized to both the stimulating effects of isoproterenol with 6 mM MgCl2 and of forskolin with 30 mM MnCl2. We have previously determined (Harper, J.F. J. Cyclic Nucleo. Prot. Phosphoryl. Res. 9:401-414, 1984) that cyclic AMP accumulation desensitized to isoproterenol is rapidly counteracted by 1 microM forskolin but not 0.1 microM forskolin. Similarly, if 1 microM forskolin was included in the desensitizing incubation with isoproterenol then adenylate cyclase subsequently prepared was not desensitized. Development of desensitized adenylate cyclase was only partially affected by 0.1 microM forskolin. Desensitization is counteracted by forskolin only on intact cells. Once tissue is homogenized, desensitized adenylate cyclase does not respond as well to forskolin as does control adenylate cyclase. The site of desensitization appears to be at or near the adenylate cyclase catalytic unit. Desensitization of adenylate cyclase catalytic activity remains demonstrable after membranes are solubilized with CHAPS. The adenylate cyclase activity remaining in the supernatant following solubilization of desensitized membranes is depressed to nearly the same extent as found in the membranes. Further, desensitized adenylate cyclase in membrane preparations and after solubilization is desensitized to stimulatory effects of forskolin with 30 mM MnCl2, a condition under which forskolin is probably acting directly on the adenylate cyclase catalytic unit. Desensitization appears not to be dependent on activity of the inhibitory guanine nucleotide regulatory protein (Gi), since pertussis toxin is without effect on desensitization of cyclic AMP accumulation to isoproterenol.
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PMID:Desensitization in rat parotid to beta-adrenergic agonists and counteracting effects of forskolin are conserved in membrane and detergent-solubilized adenylate cyclase catalyst activity. 287 14

Activation of human blood platelet adenylate cyclase is initiated through the binding of prostaglandin E1 to the membrane receptors. Incubation of platelet membrane with [3H]prostaglandin E1 at pH 7.5 in the presence of 5 mM MgCl2 showed that the binding of the autacoid was rapid, reversible and highly specific. The binding was linearly proportional to the activation of adenylate cyclase. Although the membrane-bound radioligand could not be removed either by GTP or its stable analogue 5'-guanylylimido diphosphate, 150 nM cyclic AMP displaced about 40% of the bound agonist from the membrane. Scatchard analyses of the binding of the prostanoid to the membrane in the presence or absence of cyclic AMP showed that the nucleotide specifically inhibited the high-affinity binding sites without affecting the low-affinity binding sites. Incubation of the membrane with 150 mM cyclic AMP and varying amounts of prostaglandin E1 (25 nM to 1.0 microM) showed that the percent removal of the membrane-bound autacoid was similar to the percent inhibition of adenylate cyclase at each concentration of the agonist. At a concentration of 25 nM prostaglandin E1, both the binding of the agonist and the activity of adenylate cyclase were maximally inhibited by 40%. With the increase of the agonist concentration in the assay mixture, the inhibitory effects of the nucleotide gradually decreased and at a concentration of 1.0 microM prostaglandin E1 the effect of the nucleotide became negligible. These results show that cyclic AMP inhibits the activation of adenylate cyclase by low concentrations of prostaglandin E1 through the inhibition of the binding of the agonist to high-affinity binding sites.
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PMID:Inhibition of prostaglandin E1-induced activation of adenylate cyclase in human blood platelet membrane. 290 82

The GTPase activity of the stimulatory guanine nucleotide-binding regulatory protein (Gs) of hormone-sensitive adenylate cyclase was investigated using purified rabbit hepatic Gs and either [alpha-32P]- or [gamma-32P] GTP as substrate. The binding of [35S]guanosine 5'-O-(thiotriphosphate) (GTP gamma S) was used to quantitate the total concentration of Gs. 1) GTPase activity was a saturable function of the concentration of GTP, with Km = 0.3 microM. MgCl2 monotonically increased the activity. The maximum observed turnover number was about 1.5 min-1. 2) During steady-state hydrolysis, 20-40% of total Gs could be trapped as a Gs-GDP complex and 1-2% could be trapped as Gs-GTP. The hydrolysis of Gs-GTP to Gs-GDP occurred with t 1/2 less than or equal to 5 s at 30 degrees C and t 1/2 approximately 1 min at 0 degrees C. Hydrolysis of Gs-GTP was inhibited by 1.0 mM EDTA in the absence of added Mg2+. 3) The rate of formation of Gs-GDP and the initial GTPase rate varied in parallel as functions of the concentrations of either GTP or MgCl2 (above 0.1 mM Mg2+). The ratio of the rate of accumulation of Gs-GDP to the GTPase rate was constant at 0.3-0.4. 4) The rate of dissociation of assayable Gs-GDP was biphasic. The initial phase accounted for 60-80% of total assayable Gs-GDP and was characterized by a t 1/2 of about 1 min. 5) Lubrol 12A9 potently inhibited the GTPase reaction and the dissociation of Gs-GDP in parallel, and inhibition of product release may account for the inhibition of steady-state hydrolysis. 6) The beta and gamma subunits of Gs markedly inhibited the dissociation of GDP from Gs in contrast to their ability to stimulate the dissociation of GTP gamma S. 7) GDP, GTP gamma S, and guanyl-5'-yl imidodiphosphate (Gpp(NH)p) competitively inhibited the accumulation of Gs-GDP. GTP gamma S and Gpp(NH)p inhibited the GTPase reaction noncompetitively, GDP displayed mixed inhibition, and Pi did not inhibit. These data are interpretable in terms of the coexistence of two specific mechanistic pathways for the overall GTPase reaction.
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PMID:GTPase activity of the stimulatory GTP-binding regulatory protein of adenylate cyclase, Gs. Accumulation and turnover of enzyme-nucleotide intermediates. 298 Dec 6

We have assessed the functional interactions of two pure receptor proteins with three different pure guanine nucleotide regulatory proteins in phosphatidylcholine vesicles. The receptor proteins are the guinea pig lung beta-adrenergic receptor (beta AR) and the retinal photon receptor rhodopsin. The guanine nucleotide regulatory proteins were the stimulatory (Ns) and inhibitory (Ni) proteins of the adenylate cyclase system and transducin (T), the regulatory protein from the light-activated cyclic GMP phosphodiesterase system in retinal rod outer segments. The insertion of Ns with beta AR in lipid vesicles increases the extent of binding of [35S] GTP gamma S to Ns and in parallel, the total GTPase activity. However, there is little change in the actual rate of catalytic turnover of GTPase activity (defined as mol of Pi released/min/mol of Ns-guanine nucleotide complexes). Enhancement of this turnover rate requires the beta-agonist isoproterenol and is accounted for by an isoproterenol-promoted increase in the rate and extent of [35S]GTP gamma S binding to Ns. The co-insertion of the beta AR with Ni or transducin results in markedly lower stimulation by isoproterenol of both the GTPase activity and [35S]GTP gamma S binding to these nucleotide regulatory proteins indicating that their preferred order of interaction with beta AR is Ns much greater than Ni greater than T. This contrasts with the preferred order of interaction of these different nucleotide regulatory proteins with light-activated rhodopsin which we find to be T approximately equal to Ni much greater than Ns. Nonetheless the fold stimulation of GTPase activity and [35S]GTP gamma S binding in T, induced by light-activated rhodopsin, is significantly greater than the "fold" stimulation of these activities in Ni. This reflects the greater intrinsic ability of Ni to hydrolyze GTP and bind guanine nucleotides (at 10 mM MgCl2, 100-200 nM GTP or [35S] GTP gamma S) compared to T. The maximum turnover numbers for the rhodopsin-stimulated GTPase in both Ni and T are similar to those obtained for isoproterenol-stimulated activity in Ns. This suggests that the different nucleotide regulatory proteins are capable of a common upper limit of catalytic efficiency which can best be attained when coupled to the appropriate receptor.
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PMID:Specificity of the functional interactions of the beta-adrenergic receptor and rhodopsin with guanine nucleotide regulatory proteins reconstituted in phospholipid vesicles. 298 58

The retinal nucleotide regulatory protein, transducin, can substitute for the inhibitory guanine nucleotide-binding regulatory protein (Ni) in inhibiting adenylate cyclase activity in phospholipid vesicle systems. In the present work we have assessed the roles of the alpha (alpha T) and beta gamma (beta gamma T) subunit components in mediating this inhibition. The inclusion of either a preactivated alpha T . GTP gamma S (where GTP gamma S is guanosine 5'-O-(thiotriphosphate)) complex, or the beta gamma complex, in phospholipid vesicles containing the pure human erythrocyte stimulatory guanine nucleotide-binding regulatory protein (Ns) and the resolved catalytic moiety of bovine caudate adenylate cyclase (C) resulted in inhibition of the GppNHp-stimulated (where GppNHp is guanyl-5'-yl imidodiphosphate) activity (by approximately 30-60 and 90%, respectively, at 2 mM MgCl2). The inhibitions by both of these subunit species are specific for the Ns-stimulated activity with neither alpha T . GTP gamma S nor beta gamma T having any direct effect on the intrinsic activity of the catalytic moiety. Increasing the MgCl2 concentration in the assay incubations significantly decreases the inhibitions by both alpha T . GTP gamma S and beta gamma T. Similarly, when the pure hamster lung beta-adrenergic receptor is included in the lipid vesicles with Ns and C, the levels of inhibition of the GppNHp-stimulated activity by both alpha T . GTP gamma S and beta gamma T are reduced compared to those obtained in vesicles containing just Ns and C (but not stimulatory receptor). These inhibitions are reduced still further under conditions where the agonist stimulation of adenylate cyclase activity is maximal, i.e. when stimulating with isoproterenol plus GTP. In these cases the alpha T . GTP gamma S inhibitory effects are completely eliminated and the inhibitions observed with holotransducin can be fully accounted for by the beta gamma T complex. The ability of the beta-adrenergic receptor to relieve these inhibitions suggests that the receptor may remain coupled to Ns (or alpha s) during the activation of the regulatory protein and the stimulation of adenylate cyclase. These results also suggest that under physiological conditions the beta gamma subunit complex is primarily responsible for mediating the inhibition of adenylate cyclase activity.
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PMID:Mechanism of guanine nucleotide regulatory protein-mediated inhibition of adenylate cyclase. Studies with isolated subunits of transducin in a reconstituted system. 301 93


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