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)

Concentrations of cAMP (cyclic adenosine 3',5'-monophosphate) and cGMP (cyclic guanosine 3',5'-monophosphate), in ganglia from the garden snail Helix pomatia, vary considerably over the course of the day. There is a maximum in the concentration of both cyclic nucleotides between 08:00 and 12:00 (lights on 06:00 to 18:00), with the cAMP maximum occurring slightly later than that in cGMP. In addition there can be several smaller maxima in cAMP and cGMP levels; the timing of these can be markedly different from experiment to experiment, with cAMP and cGMP sometimes in and sometimes out of phase with each other. This pattern is observed in Helix which had been activated from the dormant state 4-6 days earlier, but is not present in dormant or in long-active animals. The cyclic nucleotide rhythm can be seen in ganglia maintained in organ culture, and persists for at least 24 hours after removal of the tissue from the animal. There appears to be little change in the level of basal or NaF-stimulated adenylate cyclase activity in Helix ganglia over the course of the day. On the other hand, both cAMP and cGMP phosphodiesterase activities exhibit rhythms which are consistent with the rhythms in cAMP and cGMP concentrations.
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PMID:Diurnal rhythms in cyclic nucleotide metabolism in Helix nervous system. 19 11

Vasoactive intestinal polypeptide (VIP) and nitric oxide (NO) have been proposed as inhibitory non-adrenergic non-cholinergic (NANC) neurotransmitters in the rat gastric fundus. The smooth muscle relaxant actions of VIP and NO are medaited by cAMP and cGMP, respectively; therefore the effect of inhibitors of phosphodiesterases responsible for cyclic nucleotide breakdown on relaxation induced by VIP, NO and electrical field stimulation was investigated. The non-specific phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine (IBMX), the cGMP-specific phosphodiesterase inhibitor, zaprinast, the adenylate cyclase activator, forskolin, and the cyclic nucleotide analog, 8-bromo cGMP, produced concentration-dependent relaxation of rat gastric fundus strips precontracted by PGF2 alpha. IBMX potentiated isoprenaline-induced relaxation but not relaxation induced by sodium nitroprusside, VIP, NO or electrical field stimulation. Zaprinast potentiated the relaxation induced by sodium nitroprusside, while having no influence on relaxation due to any other stimulus. The combination of both phosphodiesterase inhibitors did not significantly affect the electrically induced relaxation. It is concluded that both cAMP and cGMP mediate relaxation in the rat gastric fundus. Further research is needed to investigate the role of the cyclic nucleotides during NANC relaxation of this tissue.
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PMID:Effect of 3-isobutyl-1-methylxanthine and zaprinast on non-adrenergic non-cholinergic relaxation in the rat gastric fundus. 137 30

Evidence is presented that compounds which stimulate the soluble form of the enzyme guanylate cyclase or which inhibit the enzyme cGMP phosphodiesterase (PDE), responsible for the degradation of cGMP (including endothelium-derived relaxing factor) are inhibitors of sympathetic neurotransmission to vascular smooth muscle and inhibit the efflux of norepinephrine from sympathetic nerves. Moreover, prostacyclin, papaverine, iloprost, and forskolin, compounds which stimulate the enzyme adenylate cyclase, and rolipram (neural specific) and milrinone, enoximone, and piroximone (muscle specific) inhibitors of Type III cAMP PDE and degradation of cAMP, do not inhibit nerve stimulation to most blood vessels. The data support the concept that cGMP may act as a negative feedback modulator of physiologic frequencies of sympathetic nerve activity to blood vessels. cAMP does not appear to modulate adrenergic neurotransmission to vascular smooth muscle at physiologic frequencies of neural stimulation.
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PMID:Cyclic GMP modulates release of norepinephrine from adrenergic nerves innervating canine arteries. 185 Jun 2

High affinity binding of guanine nucleotides and the ability to hydrolyze bound GTP to GDP are characteristics of an extended family of intracellular proteins. Subsets of this family include cytosolic initiation and elongation factors involved in protein synthesis, and cytoskeletal proteins such as tubulin (Hughes, S.M. (1983) FEBS Lett. 164, 1-8). A distinct subset of guanine nucleotide binding proteins is membrane-associated; members of this subset include the ras gene products (Ellis, R.W. et al. (1981) Nature 292, 506-511) and the heterotrimeric G-proteins (also termed N-proteins) (Gilman, A.G. (1984) Cell 36, 577-579). Substantial evidence indicates that G-proteins act as signal transducers by coupling receptors (R) to effectors (E). A similar function has been suggested but not proven for the ras gene products. Known G-proteins include Gs and Gi, the G-proteins associated with stimulation and inhibition, respectively, of adenylate cyclase; transducin (TD), the G-protein coupling rhodopsin to cGMP phosphodiesterase in rod photoreceptors (Bitensky, M.W. et al. (1981) Curr. Top. Membr. Transp. 15, 237-271; Stryer, L. (1986) Annu. Rev. Neurosci. 9, 87-119), and Go, a G-protein of unknown function that is highly abundant in brain (Sternweis, P.C. and Robishaw, J.D. (1984) J. Biol. Chem. 259, 13806-13813; Neer, E.J. et al. (1984) J. Biol. Chem. 259, 14222-14229). G-proteins also participate in other signal transduction pathways, notably that involving phosphoinositide breakdown. In this review, I highlight recent progress in our understanding of the structure, function, and diversity of G-proteins.
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PMID:Signal transduction by guanine nucleotide binding proteins. 243 86

In order to study the molecular basis for the functional localization and behavioral control of sperm, we have partially characterized plasma membranes prepared from isolated head and tail fractions. These membranes have similar amounts of the Na+ pump (as reflected by (Na+,K+)-ATPase activity), whereas they differ in protein composition, binding sites for Ca2+ channel antagonists, and in the localization of enzymes of cyclic nucleotide metabolism. The Ca2+ channel antagonist D600 (and related phenylalkylamines) binds to plasma membrane preparations from sperm heads and tails with much higher affinity than do the dihydropyridine antagonists. This binding is inhibited greatly by certain monovalent (but not divalent) ions, especially Na+, Tris+, glycine ethyl ester+, and methylamine+.K+,Li+, and choline+ are less effective. In media of ionic composition resembling seawater, sperm tail membranes exhibit 6.5-fold more binding sites for D600 than do membranes from sperm head. cGMP phosphodiesterase and adenylate cyclase are also enriched in plasma membranes from the tail. Thus, the highly polarized sperm cell exhibits a regional differentiation of plasma membrane proteins implicated in behavioral control.
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PMID:Regional differentiation of the sea urchin sperm plasma membrane. 245 66

Radioligand binding studies disclosed one class of high affinity atrial natriuretic factor (ANF) receptors on human fibroblast membranes (Kd = 66 pM; maximum number of binding sites [Bmax] = 7,000 sites/cell). ANF increased cellular cyclic guanosine monophosphate (cGMP) content and suppressed isoproterenol- and PGE1-elevated, but not basal, cAMP content. Pertussis toxin pretreatment, which maximally ADP-ribosylated Gi, the guanine nucleotide-binding protein that couples inhibitory receptors to adenylate cyclase and blocks receptor-mediated inhibition of adenylate cyclase, did not interfere with ANF suppression of isoproterenol- or PGE1-elevated cellular cAMP content. Preliminary incubation of fibroblasts with 8-bromo cGMP or phosphodiesterase inhibitors, including 3-isobutyl-1-methylxanthine, Ro 20-1724, and cilostamide, however, prevented the ANF suppression of cAMP. MB 22948, an inhibitor that is partially selective for cGMP phosphodiesterase, did not block the effect of ANF. We conclude that in these cells, unlike other systems, ANF reduces cAMP content by activating a phosphodiesterase rather than by inhibiting adenylate cyclase.
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PMID:Atrial natriuretic factor reduces cyclic adenosine monophosphate content of human fibroblasts by enhancing phosphodiesterase activity. 245 32

These studies were performed in vitro to investigate the nature of the second messenger for lower esophageal sphincter (LES) smooth muscle relaxation in response to electrical field stimulation (EFS) and vasoactive intestinal polypeptide (VIP). It was seen that VIP, permeant derivatives of the cyclic nucleotide 8-bromo cyclic GMP (BrcGMP) and 8-bromo cyclic AMP (8-BrcAMP), the guanylate cyclase stimulant sodium nitroprusside (SNP), the adenylate cyclase stimulant forskolin, M&B 22,948 (cGMP phosphodiesterase inhibitor) and SK&F 94,120 (cAMP phosphodiesterase inhibitor) caused dose-dependent and tetrocotoxin resistant fall in LES tension. Guanylate cyclase inhibitor methylene blue (MB) (3 x 10(-5) M), caused significant antagonism of fall in LES tension by SNP without modifying the inhibitory response of forskolin. The possible adenylate cyclase inhibitor N-ethylmaleimide (NEM) (1 x 10(-4) M), on the other hand, caused significant antagonism of fall in LES tension by forskolin without any effect on that caused by SNP. The inhibitory responses of 8-BrcGMP and 8-BrcAMP were not modified by MB or NEM. NEM (1 x 10(-4) M) and MB (3 x 10(-5) M) caused significant inhibition of the fall in LES tension with EFS. NEM also caused inhibition of fall in LES tension by VIP. Furthermore, SK&F 94,120 and not M&B 22,948 caused significant potentiation of fall in LES tension by EFS. From these results we conclude that: 1) cAMP and cGMP may act as second messengers for LES relaxation with EFS and VIP, and 2) VIP may act primarily via cAMP system and remains a strong possibility for one of the inhibitory neurotransmitters in the LES.
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PMID:Influence of stimulators and inhibitors of cyclic nucleotides on lower esophageal sphincter. 253 11

GTP-binding proteins have been implicated as transducers of a variety of biological signaling processes. These proteins share considerable structural as well as functional homology. Due to these similarities, it was thought that a monoclonal antibody that inhibits the light activation of the rod outer segment GTP-binding protein, tranducin (Gt), might exert some functional effect upon the G proteins that regulate the adenylate cyclase system. Antibody 4A, raised against the alpha subunit of Gt, cross-reacted (by hybridization on nitrocellulose) with purified alpha subunits of other G proteins (Gi and Gs, regulatory guanyl nucleotide-binding proteins that mediate inhibition and stimulation of adenylate cyclase, respectively) as long as they were not denatured. This antibody, which interferes with rod outer segment cGMP phosphodiesterase activation by blocking interaction between rhodopsin and Gt, also interfered with actions of both the stimulatory and inhibitory G proteins of adenylate cyclase from rat cerebral cortex membranes. Effects of monoclonal antibody (mAb) 4A were dose-dependent and not reversed by washing. mAb 4A also blocked the Gi-mediated inhibition of adenylate cyclase in the cyc- variant of S49 lymphoma and in doing so raised the level of adenylate cyclase activity in both the cyc- variant and the S49 wild type. There was no effect of mAb 4A on adenylate cyclase activity of the resolved catalytic subunit. These results suggest that the well known sequence homologies among the G proteins involved in cellular signal transduction may extend to the sites that interact with other members of signal-transducing cascades (receptors and effector molecules). Therefore, antibody 4A may serve as a useful tool to probe the similarities and differences among the various systems.
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PMID:A monoclonal antibody against the rod outer segment guanyl nucleotide-binding protein, transducin, blocks the stimulatory and inhibitory G proteins of adenylate cyclase. 254 96

The antigen receptors on B lymphocytes, membrane forms of immunoglobulins, transduce signals regulating B cell growth and differentiation by activating a phosphoinositide-specific phospholipase C. In this report, we describe our recent work aimed at understanding this process in greater detail. We have shown that a GTP-binding component is a necessary cofactor in the stimulation of phospholipase C by mIgM. This component has a number of properties in common with the G protein family of receptor-effector coupling components seen in the adenylate cyclase and other signaling systems. For example, analogues of GTP that cannot be hydrolyzed stimulated mIgM-triggered phosphoinositide breakdown, and an analogue of GDP that cannot be converted to GTP inhibited the reactions. Furthermore, aluminum fluoride, which activates known G proteins, also stimulates phosphoinositide breakdown. The G protein that appears to link mIgM to phospholipase C is not one of the well characterized G proteins involved in the regulation of adenylate cyclase or cGMP phosphodiesterase (GS, Gi, and transducin), as judged by its insensitivity to two bacterial toxins that modify these G proteins, cholera toxin and pertussis toxin. Interestingly, analysis of pertussis toxin sensitivity indicates that there are at least 2 distinct G proteins that couple receptors to phospholipase C. For example, the G protein required for chemotactic peptide receptor signaling in neutrophils is sensitive to pertussis toxin, in contrast to the phosphoinositide signaling G protein in B cells. We have also begun to explore the mechanisms by which mIgM signal transduction can be modulated. Stimulation of protein kinase C with phorbol esters or synthetic DG was found to inhibit mIgM-triggered phosphoinositide breakdown. This regulation probably represents a feedback inhibition that would occur with DG produced by phosphoinositide breakdown. Alternatively, there appear to be other signaling pathways that generate DG33, and they could possibly inhibit phosphoinositide breakdown via protein kinase C. This could be an important locus of regulation during B cell activation. For example, other signals could increase or decrease the potency of this feedback inhibition, and thereby adjust the sensitivity of the B cell to antigen. Alternatively, other agents could stimulate protein kinase C directly, or could stimulate another protein kinase which can do the same thing in this regard, and thereby make the B cell insensitive to antigen by preventing antigen receptor signaling.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Signal transduction via the B cell antigen receptor: involvement of a G protein and regulation of signaling. 255 95

We have examined the regulation of three early developmentally regulated genes in Dictyostelium. Two of these genes (D2 and M3) are induced by pulses of cAMP and the other (K5) is repressed. Expression of these genes has been examined in a number of developmental mutants that are specifically blocked in various aspects of the signal transduction/cAMP relay system involved in aggregation and control of early development. The mutant strains include Synag mutants, which are blocked in receptor-mediated activation of adenylate cyclase and do not relay cAMP pulses; FrigidA mutants, which are blocked in receptor-mediated activation of both adenylate cyclase and the putative phosphoinositol bisphosphate (PIP2) turnover pathway and appear to be mutations in the gene encoding one of the G alpha protein subunits; and a StreamerF allele, which lacks cGMP-specific cGMP phosphodiesterase. From the analysis of the developmental expression of these genes under a variety of conditions in these mutant strains, we have drawn a number of conclusions concerning the modes of regulation of these genes. Full induction of D2 and M3 genes requires cAMP interaction with the cell surface receptor and an "oscillation" of the receptor between active and adapted forms. Induction of these genes does not require activation of the signal transduction pathway that leads to adenylate cyclase activation and cAMP relay, but does require activation of other receptor-mediated intracellular signal transduction pathways, possibly that involving PIP2 turnover. Likewise, repression of the K5 gene requires pulses of cAMP. Expression of this gene is insensitive to cAMP pulses in FrigidA mutants, suggesting that a signal transduction pathway is necessary for its repression. Results using the StreamerF mutant suggest that the rise in cGMP in response to cAMP/receptor interactions may not be directly related to control of the pulse-induced genes. In addition, we have examined the effect of caffeine, which M. Brenner and S.D. Thomas (1984, Dev. Biol., 101, 136-146) showed preferentially blocks the cAMP relay system by blocking receptor-mediated activation of adenylate cyclase. We show that in many of the mutants and in an axenic wild-type strain, caffeine causes the induction of pulse-induced gene expression to almost wild-type levels or in some cases to higher than wild-type levels. Our data suggest that caffeine works by activating some step in the signal transduction pathway that must lie downstream from both the receptor and at least one of the G proteins and thus has effects other than simply blocking the receptor-mediated cAMP relay system.
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PMID:cAMP regulation of early gene expression in signal transduction mutants of Dictyostelium. 284 88


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