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)

One traditional aspect of natural products in medical research has been their use in the identification and investigation of the physiological/pathological role of receptors and enzymes as possible targets for drug design programmes. Classical examples of this function of natural products in drug research can be seen in the investigation of the cholinergic system. For example, the importance of alkaloids such as nicotine, physostigmine and curare for research into the nicotine receptor and muscarine, pilocarpine and the tropane alkaloids on the muscarinic receptor. On binding of a ligand to its cell surface membrane receptor and prior to a physiological/pharmacological response two mechanisms are currently known to be involved in membrane signal transductance. In the minority of cases signal transductance involves the direct opening of an ion channel, for example sodium ion influx, but in the majority of cases involves stimulation of a family of G-proteins and subsequent activation of second messenger systems. For example, the cyclic-AMP/adenylate cyclase system and the phosphoinositol cycle. In this communication, the part played currently by the tumour-promoting and pro-inflammatory phorbol esters from the plant family Euphorbiaceae in furthering our understanding of the role of a group of related kinases from one arm of the phosphoinositol cycle as a signal transduction pathway will be illustrated. The possibilities of using these new receptors as targets for future drug development will also be described.
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PMID:Natural products as probes for new drug target identification. 188 Nov 72

In rat olfactory bulb, stimulation of muscarinic receptors activates adenylate cyclase. In the present study we have examined a variety of muscarinic receptor stimulants to characterize the agonist profile of this response. Analysis of agonist concentration-response curves revealed the following rank order of potency: oxotremorine-M greater than oxotremorine greater than BM5 greater than acetylcholine greater than carbachol = methacholine greater than (+/-)muscarine greater than arecoline greater than pilocarpine greater than RS 86 greater than McN-A-343 greater than bethanechol. Acetylcholine, oxotremorine-M, carbachol, (+/-)muscarine and metacholine behaved as full agonists, whereas the other stimulants displayed lower efficacies. The slope values of the concentration-response curves were close or equal to 1, except those of the carbachol and pilocarpine curves, which showed values significantly lower than 1. Moreover, the slope of the pilocarpine curve was differentially changed by the M1 antagonist pirenzepine and the M2 antagonist AF-DX 116. The agonist profile of the muscarinic stimulation of adenylate cyclase in the olfactory bulb correlated well with that exhibited by the muscarinic inhibition of the enzyme activity in the striatum, suggesting that the two responses are mediated by a similar receptor subtype. Sodium ion modulated the agonist affinity for both adenylate cyclase-coupled receptor systems.
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PMID:Muscarinic stimulation of adenylate cyclase activity of rat olfactory bulb. I. Analysis of agonist sensitivity. 194 16

Aluminum (Al) is believed to exert a primary role in the neurotoxicity associated with dialysis encephalopathy and has been suggested to be involved in a number of other neurological disorders, including Alzheimer's disease. Al, complexed with fluoride to form fluoroaluminate (AlF4-), can activate the GTP-binding (G) proteins of the adenylate cyclase and retinal cyclic GMP phosphodiesterase systems. Since an involvement of G-proteins with cerebral phosphoinositide (PtdIns) metabolism has also been suggested, in this study we investigated the interaction of the stable GTP analogue GTP(S), Al salts and NaF with this system. In rat cerebral cortical membranes, GTP(S) dose-dependently stimulated [3H]inositol phosphates ([3H]InsPs) accumulation. This effect was potentiated by carbachol and was partially prevented by the GTP-binding antagonist GDP(S), indicating that CNS muscarinic receptor activation is coupled to PtdIns hydrolysis via putative G-protein(s). GTP(S) stimulation was also inhibited by phorbol 12-myristate 13-acetate (PMA), an activator of protein kinase C, which is known to exert a negative feedback control on agonist-stimulated PtdIns metabolism. Both Al salts and NaF mimicked the action of GTP(S) in stimulating PtdIns turnover. Their actions were highly synergistic, suggesting that AlF4- could be the active stimulatory species. However, the stimulatory effects of AlCl3 and/or NaF were not potentiated by carbachol and were not inhibited by GDP(S) and PMA, suggesting that separate sites of action might exist for GTP(S) and AlF4-. In the nervous tissue, activation of PtdIns hydrolysis by Al (probably as AlF4-) may be mediated by activating a regulatory G-protein at a location distinct from the GTP-binding site or by a direct stimulation of phospholipase C.
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PMID:Interaction of aluminum ions with phosphoinositide metabolism in rat cerebral cortical membranes. 194 39

The muscarinic receptor subtype mRNAs expressed in cell lines were determined by Northern blot analysis. The biochemical responses of the muscarinic receptors in these cell lines (phosphoinositide hydrolysis and cAMP levels) were studied and correlated to the corresponding muscarinic receptor subtype as determined by mRNA expression. PC12 cells that expressed M4 subtype mRNA exhibited muscarinically dependent adenylate cyclase inhibition, whereas C6 and SK-N-SH cells expressing M3 subtype mRNA exhibited muscarinically dependent phosphoinositide hydrolysis. IMR-32 cells (M2 subtype mRNA) exhibited both muscarinically dependent phosphoinositide hydrolysis and adenylate cyclase inhibition. These results suggest that endogenous M3 and M4 receptor subtypes are selectively coupled to phosphoinositide hydrolysis and adenylate cyclase inhibition, respectively, whereas the M2 receptor subtype is coupled to both responses.
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PMID:Indications for selective coupling to phosphoinositide hydrolysis or to adenylate cyclase inhibition by endogenous muscarinic receptor subtypes M3 and M4 but not by M2 in tumor cell lines. 215 28

It has been suggested that K+, Li+ and Fl- affect the function of G proteins coupled to signal transducing enzymes. Lithium, at concentrations which were found to reduce forskolin-stimulated adenylate cyclase activity, was without effect on either membrane [3H]phosphatidylinositol-4,5-bisphosphate ([3H]PIP2) hydrolysis measured in the absence or presence of 5'-guanylyl-imidodiphosphate (Gpp(NH)p), or (at greater than or equal to 2.3 mM Li+) upon the stimulation of rat cerebral cortical inositol phospholipid breakdown by either carbachol, noradrenaline or NaF measured at either 6 or 18 mM K+. The increase in assay [K+] greatly enhanced the inositol phospholipid response to carbachol but not to NaF. The inhibitory effect of carbachol upon forskolin-stimulated adenylate cyclase was not affected by raising the [K+] from 6 to 18 mM. At 6 mM K+ (both in the absence and presence of 15 microM AlCl3), the effects of carbachol and NaF upon inositol phospholipid breakdown were essentially additive, whereas at 18 mM K+, the breakdown response to carbachol (antagonised by pirenzepine with a pA2 value of 7.6) was similar in the absence and presence of NaF. It is concluded that in the rat cerebral cortex: (a) Li+ does not affect the function of either the phosphoinositide-specific phospholipase C enzyme itself or the Gp coupled to this enzyme; (b) the difference between the additivity between NaF and carbachol seen at different assay [K+] may reflect the K(+)-dependent changes in the tetrodotoxin-resistant and tetrodotoxin-sensitive pathways of carbachol stimulation of inositol phospholipid breakdown reported by Gurwitz and Sokolovsky (1987, Biochemistry 26, 633); and (c) the effect of K+ on muscarinic receptor-coupled inositol phospholipid breakdown is not found for muscarinic receptors inhibitorily coupled to adenylate cyclase. Evidence is also presented to suggest that NaF affects the dephosphorylation of the formed [3H]inositol polyphosphates.
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PMID:Effect of monovalent ions upon G proteins coupling muscarinic receptors to phosphoinositide hydrolysis in the rat cerebral cortex. 215 22

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

Although adenosine is known to activate K+ conduction in atrial tissue, there is still debate as to the involvement of cAMP-dependent mechanisms. In isolated adult guinea pig atrial myocytes, we demonstrate that the highly A1-selective adenosine receptor agonist 2-chloro-N6-cyclopentyladenosine reduced basal cAMP levels by 30-40% in the absence and presence of the nonxanthine phosphodiesterase inhibitor Ro 20-1724. Isoprenaline caused a concentration-dependent increase in cAMP levels, which was more pronounced in the presence of the phosphodiesterase inhibitor. Several adenosine derivatives suppressed the isoprenaline-induced cAMP increase by approximately 80%. The rank order of potency was 2-chloro-N6-cyclopentyladenosine (IC50, 93 nM) greater than (R)-N6-phenylisopropyladenosine (IC50, 309 nM) greater than 5'-N-ethylcarboxamidoadenosine (IC50, 813 nM) much greater than (S)-N6-phenylisopropyladenosine (IC50, 26,300 nM). A similar but complete suppression of the isoprenaline-induced cAMP increase was produced by the muscarinic receptor agonist carbachol (IC50, 398 nM), which like adenosine is known to activate atrial K+ channels. The A1-adenosine receptor-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine antagonized the effect of 2-chloro-N6-cyclopentyladenosine concentration-dependently, with a KB value of 9.6 nM. In atrial myocytes isolated from guinea pigs pretreated with pertussis toxin, the inhibitory effects of adenosine analogs on basal and isoprenaline-stimulated cAMP accumulation were markedly attenuated. It is concluded that the adenosine receptor in guinea pig atrial myocytes, which is known to be linked to K+ channels, is also coupled to adenylate cyclase via a pertussis toxin-sensitive guanine nucleotide-binding protein and shows the characteristics of the A1-adenosine receptor subtype.
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PMID:Pharmacological characterization of the adenylate cyclase-coupled adenosine receptor in isolated guinea pig atrial myocytes. 216 17

The effects of acetylethylcholine mustard (Aech-M) on the muscarinic receptor coupled adenylate cyclase system of intact GH3 cells were investigated. The concentration of Aech-M and Ach that inhibited specific [3H]N-methylscopolamine binding by 50% was similar for both compounds (9.3 microM for Ach and 10.7 microM for Aech-M). Pretreatment of intact GH3 cells or isolated membranes with 10 to 50 microM Aech-M, followed by washing, reduced the [3H]N-methylscopolamine binding capacity by 60% and 75-77%, respectively, without changing the KD value for the radioligand to the remaining receptors. Both Aech-M and Ach attenuated forskolin (1 microM) stimulated cAMP formation with half-maximal effects (EC50) occurring at 0.84 microM for Ach and 0.24 microM for Aech-M. The maximal inhibition was 70-80% for Ach and 30-40% for Aech-M. However, the dose-response for Aech-M was biphasic such that at high concentrations (greater than 50 microM) there was a reduction in its ability to attenuate cAMP formation. After 3 min incubation with either Ach or Aech-M, the addition of atropine completely reversed their inhibitory effect even though with Aech-M there was a greater than 50% reduction in receptor capacity. Furthermore, over a 12-min incubation, Ach produced a relatively stable 67-76% reduction in cAMP accumulation, whereas with Aech-M the initial attenuation was gradually reduced such that by 10 min of incubation, no effect was observed. Finally, pretreatment with Aech-M resulted in a reduced sensitivity to the action of Ach as the EC50 values for inhibition of cAMP accumulation were increased 7.6- and 13.5-fold, respectively, with little or no change in the maximal response. The data indicate that Aech-M produces a transient agonist effect to attenuate cAMP formation in intact GH3 cells followed by an antagonist action probably after irreversible binding to the receptor.
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PMID:Effect of acetylethylcholine mustard on muscarinic receptor-coupled attenuation of cAMP formation in intact GH3 cells. 216 88

A selective amplification of the coding sequence of the rat M2 muscarinic receptor gene was achieved by the polymerase chain reaction. The error rate of this amplification system under conditions specified was 1 nucleotide substitution in 841 base pairs. In vitro expression of this gene in murine fibroblasts (B82) via the eukaryotic expression vector, pH beta APr-1-neo, resulted in high level expression of specific [3H] (-)MQNB binding in transfected B82 cell lines. One of these clones, M2LKB2-2, showed a stable expression of [3H] (-)MQNB binding with a Kd value of 265 pM and a Bmax value of 411 +/- 50 fmol/10(6) cells. Cardiac selective muscarinic antagonists such as himbacine and AF-DX 116 show high affinities for this binding site in the M2LKB2-2 cells. The rank order of potency of several antagonists in inhibiting [3H] (-)MQNB binding in these cells conformed to the characteristics of an M2 type muscarinic receptor. Carbachol showed a single affinity state for the receptors in the M2LKB2-2 cells with a Ki value of 2.0 microM. This receptor appeared to be inversely coupled to adenylate cyclase via a pertussis toxin sensitive G-protein. Carbachol also had a slight stimulatory effect on the hydrolysis of inositol lipids. The polymerase chain reaction proves highly effective in cloning genes from genomic material, as demonstrated by the first in vitro functional expression of the rat M2 type muscarinic receptor.
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PMID:Amplification of the rat M2 muscarinic receptor gene by the polymerase chain reaction: functional expression of the M2 muscarinic receptor. 217 74

In primary cultures of cerebellar granule cells, activation of muscarinic receptors stimulates both hydrolysis of phosphatidylinositol (PI) and inhibition of adenylate cyclase. The specificity of three muscarinic receptor antagonists, pirenzepine, methoctramine and (-)quinuclidinyl xanthene-9-carboxylate [(-)QNX], in blocking carbachol-stimulated hydrolysis of PI and inhibition of adenylate cyclase were determined. Pirenzepine was found to be nonspecific in blocking the carbachol-stimulated hydrolysis of PI and inhibition of adenylate cyclase, while methoctramine specifically antagonized carbachol-stimulated inhibition of adenylate cyclase with 600 times greater potency than carbachol-stimulated hydrolysis of PI. (-)Quinuclidinyl xanthene-9-carboxylate was approximately 20 times more potent in blocking the carbachol-stimulated hydrolysis of PI than inhibition of adenylate cyclase. Studies of the ability of these three antagonists to block the binding of [3H]quinuclidinyl benzilate [( 3H]QNB) to muscarinic sites on membranes from cerebellar granule cells, revealed that all three antagonists displayed binding characteristics, characteristic of two binding sites, possibly representing the two types of muscarinic receptors. However, the ratio of the affinities for each of the two binding sites was about ten for pirenzepine, 100 for methoctramine and 650 for (-)QNX. Thus, the specificity of these antagonists, in blocking the inhibition of adenylate cyclase and hydrolysis of PI did not correlate with their specificities obtained with the binding studies with [3H]QNB.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Specificity of methoctramine in blocking muscarinic receptors which inhibit adenylate cyclase in cerebellar granule cells. 229 64


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