Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Extensive behavioral and biochemical characterization of cannabinoid-mediated effects on the central nervous system has revealed at least three lines of evidence supporting the role of a putative guanine nucleotide-binding protein-coupled cannabinoid receptor for cannabimimetic effects, (i) stereoselectivity, (ii) inhibition of the adenylate cyclase/cAMP second messenger system, and (iii) radioligand-binding studies with the synthetic cannabinoid [3H]CP-55,940 indicating a high degree of specific binding to brain tissue preparations. Based on recent findings from our laboratory demonstrating that delta 9-tetrahydrocannabinol markedly inhibited forskolin-stimulated cAMP accumulation in mouse spleen cells, the presence of a guanine nucleotide-binding protein-coupled cannabinoid receptor associated with mouse spleen cells and its functional role in immune modulation were investigated. In the present studies, stereoselective immune modulation was observed with the synthetic bicyclic cannabinoid (-)-CP-55,940 versus (+) CP-56,667 and with 11-OH-delta 8-tetrahydrocannabinol-dimethylheptyl, (-)-HU-210 versus (+)-HU-211. In both cases, the (-)-enantiomer demonstrated greater immunoinhibitory potency than the (+)-isomer, as measured by the in vitro sheep red blood cell antibody-forming cell response. Radioligand binding studies produced a saturation isotherm exhibiting approximately 45-65% specific binding to mouse spleen cells. Scatchard analysis demonstrated a single binding site on spleen cells, possessing a Kd of 910 pM and a Bmax of approximately 1000 receptors/spleen cell. RNA polymerase chain reaction of isolated splenic RNA using specific primers for the cannabinoid receptor resulted in the amplification of a 854-kilobase predicted product that hybridized with cannabinoid receptor cDNA, demonstrating the presence of cannabinoid receptor mRNA in mouse spleen. Together, these findings strongly support the role of a cannabinoid receptor in immune modulation by cannabimimetic agents.
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PMID:Identification of a functionally relevant cannabinoid receptor on mouse spleen cells that is involved in cannabinoid-mediated immune modulation. 127 76

Calcium influx is an important aspect of receptor-mediated signal transduction, yet limited information is available regarding the pathways of calcium influx into nonexcitable cells. We show that treatment of oocytes from Xenopus laevis with cholera toxin, a potent activator of the guanine nucleotide-binding protein Gs, specifically stimulates a sustained inward whole cell flux of calcium through a novel membrane transporter. The calcium is distributed into a mobilizable pool. The flux is voltage-independent and is completely and specifically blocked by microinjection of oocytes with an antiserum directed against Gs alpha. The flux is not activated by treatment of the cells with forskolin or 8-bromo-cyclic adenosine monophosphate indicating that the effect of Gs alpha on the transporter occurs independently of adenylylcyclase activation. Transporter activity is insensitive to benzyl amiloride, does not require a sodium gradient, and is not stimulated by external calcium, indicating that it is not a sodium-calcium exchanger. The Gs-activated flux is dramatically potentiated by lanthanum ion and other trivalent cations but not by any of six divalent cations that were tested; all other known calcium channels and exchangers are, in contrast, potently blocked by lanthanum. The divalent cation cadmium inhibited transporter activity in a concentration-dependent manner. This novel calcium transporter may be important for receptor-mediated calcium influx in the oocyte and perhaps other cell types.
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PMID:The guanine nucleotide-binding protein Gs activates a novel calcium transporter in Xenopus oocytes. 130 78

Somatostatin and muscarinic acetylcholine receptors are similar as far as modulation of voltage-gated Ca2+ channels and anomalously rectifying K+ channels are concerned. Activation of either type of receptors induces inhibition of Ca2+ channels and activation of anomalous K+ channels without depending on intracellular cAMP. Somatostatin appears to act on the same receptor subtype for these two actions since somatostatin receptors are homogenous in pituitary cells (Srikant and Patel, 1982; Tran et al., 1985) where the peptide produces these two effects as well as an inhibition of adenylate cyclase. In the case of muscarinic receptors, however, it remains unclear whether the same subtype of receptors is involved in both inhibition of Ca2+ channels and activation of K+ channels. Activation of muscarinic receptors in hippocampal neurones evidently produces a cAMP-independent suppression of Ca2+ channel. In cardiac cells, however, muscarinic stimulation does not cause a cAMP-independent suppression of Ca2+ channels but does activate an anomalous rectifier. These findings do not necessarily mean that the muscarinic receptor involved in the inhibition of Ca2+ channels in hippocampal neurones is not of m2 type which is assumed to mediate the activation of anomalous K+ channels in cardiac cells. There is no evidence that cardiac Ca2+ channels are identical to hippocampal Ca2+ channels susceptible to muscarinic inhibition. In addition, a similar argument could be applied to G proteins coupling muscarinic receptors to Ca2+ channels in neurones and cardiac myocytes. In this regard, it should be noted that activation of GABAB receptors or mu and delta opiate receptors, an event known to inhibit adenylate cyclase activity through a PTX-sensitive Gi protein, also produces both inhibition of Ca2+ channels and activation of anomalous K channels in a cAMP-independent manner. This close correlation between inhibition of adenylate cyclase activity and cAMP-independent modulation of Ca2+ and K+ channels suggests the possible involvement of m2 subtype in the inhibition of Ca2+ channels in hippocampal neurones. Circumstantial evidence indicates that anomalous K+ channels are directly activated by alpha subunits of Gi, but not Go, proteins. The alpha subunit of Go protein seems to mediate inhibition of the Ca2+ channel, probably in a direct manner. The most striking difference between somatostatin and muscarinic receptors would be their opposite actions on the M channel. All the inhibitory receptors on the M channel, including m1 and m3 receptors, are known to stimulate PI hydrolysis via a PTX-insensitive G protein.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Modulation of ion channels by somatostatin and acetylcholine. 137 25

Exposure of C62B rat glioma cells to fresh medium containing fetal bovine serum induced a sensitization of the subsequent ability of isoproterenol and forskolin to stimulate cyclic AMP accumulation, compared to cells exposed to fresh medium without serum. Isoproterenol stimulation was typically increased by 2- to 4-fold and forskolin stimulation by 3- to 5-fold. Sensitization occurred rapidly, was rapidly reversible and appeared to result from an increase in maximal stimulation. A commercial preparation of albumin, purified chromatographically so as to retain bound lipids and other factors, was able to mimic the effect of serum. In contrast to the effects of serum, exposure of cells to phorbol 12-myristate, 13-acetate induced little or no change in forskolin stimulation but a marked desensitization of isoproterenol stimulation that was due primarily to a decrease in potency. Neither the protein kinase C inhibitor staurosporine or overnight exposure to phorbol 12-myristate, 13-acetate to down-regulate protein kinase C prevented serum-induced sensitization. Pertussis toxin almost completely blocked serum-induced sensitization, suggesting involvement of a pertussis toxin-sensitive guanine nucleotide-binding protein in mediating the effects of serum. Sensitization was poorly retained in membrane adenylate cyclase assays. Studies with the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine, direct assays of cyclic AMP degradation by intact cells and assays of phosphodiesterase activity in cell lysates all indicated that degradation of cyclic AMP was decreased in serum-pretreated cells. Thus, both increased cyclic AMP synthesis and decreased cyclic AMP degradation may contribute to sensitization in these cells.
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PMID:Serum-induced sensitization of cyclic AMP accumulation in C62B rat glioma cells. 138 77

The clinical syndrome of heart failure occurs as a consequence of the limitation of compensatory mechanisms, such as cardiac hypertrophy. To clarify transcriptional changes in specific genes in failing hearts, we examined the expression of cardiac Ca(2+)+Mg(2+)-dependent ATPase in the sarcoplasmic reticulum and transforming growth factor beta genes in the ventricles of rat hypertrophied heart, and the expression of guanine nucleotide-binding protein and "fetal" contractile protein genes in the ventricles of cardiomyopathic Syrian hamsters of Bio14.6. Northern blot analysis of total cellular RNA revealed that the mRNA levels of Ca(2+)+Mg(2+)-dependent ATPase were decreased by pressure overload and became 32% of sham in 1 month, and were correlated with corresponding protein levels. Transforming growth factor beta mRNA, a potent activator of collagen synthesis, was increased by pressure overload. The expression levels of the Gs alpha mRNA, which stimulated the adenylate cyclase, in Bio14.6 ventricles were lower than the levels in ventricles of the F1B hamster strain, and decreased as the stage of cardiomyopathy progressed. Moreover, re-expression of fetal mRNA was observed in the ventricle of cardiomyopathic Syrian hamsters of the Bio14.6 strain. These results indicate that reprogramming of cardiac gene expression both of myofibrillar and nonmyofibrillar components might occur in the failing heart.
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PMID:Molecular mechanism of hypertrophied failing heart--abnormalities of the diastolic properties and contractility. 138 37

The effect of beta gamma-dimers isolated from the retinal guanine nucleotide-binding protein (G protein) transducin eluted from illuminated bovine rod outer segment membranes with GTP, guanosine 5'-O-(beta, gamma-imino)triphosphate (Gpp(NH)p), or guanosine 5'-O-(gamma-thio)triphosphate (GTP gamma S) on basal and forskolin-stimulated adenylylcyclase activities in membranes of human platelets was studied. beta gamma-Subunits isolated from transducin eluted with GTP gamma S (TD beta gamma GTP gamma S) had a concentration-dependent stimulatory effect on basal adenylylcyclase activity. The stimulatory agonist prostaglandin E1 increased the potency and the maximum extent of stimulation due to TD beta gamma GTP gamma S). With a similar concentration dependence, TD beta gamma GTP gamma S exerted an inhibitory influence on forskolin-stimulated adenylylcyclase activity. At the same concentrations, beta gamma-dimers isolated with either GTP or Gpp(NH)p did not alter enzyme activities. The observed effects of TD beta gamma GTP gamma S were similar to those of directly added GTP gamma S with regard to maximum levels, time dependence, and persistence; however, TD beta gamma GTP gamma S was approximately 10-fold more potent than GTP gamma S. Treatment of TD beta gamma GTP gamma S, but not of free GTP gamma S, with hydroxylamine caused a loss of adenylylcyclase regulation by TD beta gamma GTP gamma S. The data presented indicated that TD beta gamma GTP gamma S potently and efficiently activates the stimulatory and inhibitory G proteins of adenylylcyclase in human platelet membranes. Furthermore, evidence is provided suggesting that the observed effects of TD beta gamma GTP gamma S, which can be thiophosphorylated by GTP gamma S at the beta-subunit (Wieland, T., Ulibarri, I., Gierschik, P., and Jakobs, K. H. (1991) Eur. J. Biochem. 196, 707-716), are due to formation of GTP gamma S at the G proteins.
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PMID:Stimulation and inhibition of human platelet adenylylcyclase by thiophosphorylated transducin beta gamma-subunits. 140 Mar 95

cDNA encoding a hormone- and guanine nucleotide-stimulated adenylyl cyclase [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1] (type 6) from rat liver and kidney has been cloned and expressed. This enzyme is stimulated by forskolin, guanosine 5'-[gamma-thio]triphosphate, and isoproterenol plus GTP but is not stimulated by beta gamma subunits of guanine nucleotide-binding proteins. A second form (type 5), which is 75% similar to type 6, has also been cloned. Both types 5 and 6 cDNAs have multiple messages. PCR-based detection of the mRNA for the type 5 and 6 enzymes indicates that both are widely distributed. Homology analyses indicate at least four distinct subfamilies of guanine nucleotide stimulatory protein-regulated adenylyl cyclases. Types 5 and 6 enzymes define one distinct subfamily of mammalian adenylyl cyclases. Diversity of one guanine nucleotide-binding protein-regulated effector may allow different modes of regulation of cell-surface signal transmission.
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PMID:Two members of a widely expressed subfamily of hormone-stimulated adenylyl cyclases. 140 3

Serotonin is a neuromodulator that mediates a wide range of effects by interacting with multiple receptors. Using a strategy based on nucleotide sequence homology between genes encoding receptors that interact with guanine nucleotide-binding proteins, we have isolated a mouse gene encoding an additional serotonin receptor. When expressed in cultured cells, it displayed the pharmacological profile and coupling with adenylate cyclase characteristic of the 5HT1B receptor subtype. In NIH 3T3 cells expressing this receptor, serotonin induced a decrease in forskolin-stimulated cAMP levels. This effect was blocked by pertussis toxin, indicating that the 5HT1B receptor interacts with a pertussis toxin-sensitive guanine nucleotide-binding protein. To obtain clues as to the possible function of the 5HT1B receptor, we have analyzed its pattern of expression in the adult mouse brain by in situ hybridization. Our results, together with previous autoradiographic studies, suggest that the 5HT1B receptors are localized presynaptically on the terminals of striatal neurons and Purkinje cells and that they might modulate the release of neurotransmitters such as gamma-aminobutyric acid. The predominant expression of the 5HT1B receptor in the striatum and cerebellum points to an involvement of this receptor in motor control.
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PMID:Mouse 5HT1B serotonin receptor: cloning, functional expression, and localization in motor control centers. 155 7

The syndrome of Albright hereditary osteodystrophy (AHO), pseudohypoparathyroidism (PHP) and pseudopseudohypoparathyroidism (PPHP) is clinically and genetically heterogeneous. Classically, patients with PHP have the skeletal features of AHO, resistance to multiple hormones that work via cAMP such as parathyroid hormone and thyroid stimulating hormone, and deficient activity of Gs protein, the guanine nucleotide-binding protein that stimulates adenylate cyclase. However, patients without hormone resistance but with AHO and Gs deficiency were described (PPHP), as well as patients with multiple hormone resistance but without AHO or Gs deficiency. In a few patients with deficient Gs activity, hypothyroidism rather than hypocalcemia was the initial presentation of the disorder. We describe here a new variant of the syndrome, affecting 5 individuals in a 3 generation family with AHO, normal Gs activity and hypothyroidism. In the first 2 generations, mild features of AHO were present. The 2 sibs in the third generation had severe manifestations of AHO, including mild mental retardation as well as hypothyroidism. Diagnosis of congenital osteoma cutis at birth of the proband led to the diagnosis of the family. Elucidation of the molecular defect will shed light on the relationship between hormone resistance and AHO, as well as on the physiological mechanism of hormonal signal transduction.
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PMID:Albright hereditary osteodystrophy with hypothyroidism, normocalcemia, and normal Gs protein activity: a family presenting with congenital osteoma cutis. 162 72

Prostaglandin (PG) E2 potentiates platelet aggregation at low concentrations (10(-8)-10(-6) M). It also inhibits aggregation at a higher concentration (10(-5) M), probably by acting through cyclic adenosine 3',5'-monophosphate (cyclic AMP). The mechanism of this biphasic effect of PGE2 and its implications for thrombosis are not clearly understood. Using a sensitive cyclic AMP assay, in conjunction with platelet aggregation studies, we have examined the interactions between PGE2 and other inhibitors of platelet aggregation which act through cyclic AMP. Low concentrations of PGE2 reversed the inhibition of platelet aggregation and increase in cyclic AMP levels induced by PGI2, PGD2 and adenosine (which stimulate adenylate cyclase (AC) through separate and specific platelet receptors). In contrast, low concentrations of PGE2 added to the inhibition of platelet aggregation and increase in cyclic AMP levels induced by forskolin (which stimulates AC directly) and AH-P 719 and DN-9693 (which inhibit cyclic AMP phosphodiesterase (PDE]. These results suggest that the biphasic effect of PGE2 may be mediated by interaction with two separate platelet receptors. Low concentrations appear to potentiate aggregation by acting at a receptor which is directly coupled to an inhibitory guanine nucleotide-binding protein (Gi), possibly the putative PG endoperoxide receptor. High concentrations of PGE2 appear to inhibit aggregation by acting at an additional receptor, probably the PGI2 receptor. The ease with which PGE2 reverses the effects of PGI2, PGD2 and adenosine, but adds to the effects of AH-P 719 and DN-9693, suggests that PDE inhibitors might offer greater potential than these AC stimulators as an anti-thrombotic strategy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interactions between prostaglandin E2 and inhibitors of platelet aggregation which act through cyclic AMP. 164 65


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