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)

Mouse neuroblastoma x rat glioma hybrid cells (NG108-15) express an opioid receptor of the delta subclass which both stimulates high-affinity GTPase activity and inhibits adenylate cyclase by interacting with a pertussis-toxin-sensitive guanine-nucleotide-binding protein(s) (G-protein). Four such G-proteins have now been identified without photoreceptor-containing tissues. We have generated anti-peptide antisera against synthetic peptides which correspond to the C-terminal decapeptides of the alpha-subunit of each of these G-proteins and also to the stimulatory G-protein of the adenylate cyclase cascade (Gs). Using these antisera, we demonstrate the expression of three pertussis-toxin-sensitive G-proteins in these cells, which correspond to the products of the Gi2, Gi3 and Go genes, as well as Gs. Gi1, however, is not expressed in detectable amounts. IgG fractions from each of these antisera and from normal rabbit serum were used to attempt to interfere with the interaction of the opioid receptor with the G-protein system by assessing ligand stimulation of high-affinity GTPase activity, inhibition of adenylate cyclase activity and conversion of the receptor to a state which displays reduced affinity for agonists. The IgG fraction from the antiserum (AS7) which specifically identifies Gi2 in these cells attenuated the effects of the opioid receptor. This effect was complete and was not mimicked by any of the other antisera. We conclude that the delta-opioid receptor of these cells interacts directly and specifically with Gi2 to cause inhibition of adenylate cyclase, and that Gi2 represents the true Gi of the adenylate cyclase cascade. The ability to measure alterations in agonist affinity for receptors following the use of specific antisera against a range of G-proteins implies that such techniques should be applicable to investigations of the molecular identity of the G-protein(s) which interacts with any receptor.
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PMID:Delta-opioid-receptor-mediated inhibition of adenylate cyclase is transduced specifically by the guanine-nucleotide-binding protein Gi2. 215 80

Cyclic GMP is central to visual excitation in vertebrate retinal rod cells. Sodium channels in the plasma membrane of the outer segment are kept open in the dark by a high level of cGMP. Light closes these channels by activating an enzymatic cascade that leads to the rapid hydrolysis of cGMP. Photoexcited rhodopsin triggers transducin by catalyzing the exchange of GTP for bound GDP. The activated GTP-form of transducin then switches on the phosphodiesterase by overcoming an inhibitory constraint. The overall gain of this cascade is about 10(5). The cascade is turned off by the GTPase activity of transducin and by the action of rhodopsin kinase and arrestin. One of the challenges now is to delineate the interplay of cGMP, calcium ion, and phosphoinositides in excitation and adaptation. Transducin belongs to a family of signal-coupling proteins that includes the G proteins of the hormone-regulated adenylate cyclase cascade. The initial events in visual excitation in molluscs and arthropods are probably similar to those of vertebrates. The triggering of transducin by photoexcited rhodopsin is a recurring motif in visual transduction. The coming together of electrophysiology, biochemistry, and molecular genetics affords new opportunities in unraveling the molecular mechanism of visual transduction.
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PMID:Cyclic GMP cascade of vision. 242 11

Aluminum ion perturbs the activity of a number of physiologically important enzymes, including members of a family of guanine nucleotide-binding proteins (G-proteins). G-proteins couple cellular receptor proteins to a variety of effector enzymes (including adenylate cyclase, phospholipase C, and the rod photoreceptor phosphodiesterase). We show herein that subnanomolar concentrations of free aluminum ion, produced in a carefully defined and kinetically stable manner through the buffering of total aluminum at 0.1-1.0 mM with calculated ratios of chelating agents, inhibit both the receptor-mediated activation and the self-inactivating GTPase activity of the rod photoreceptor G-protein, Gv. In the presence of 4 X 10(-10) M free aluminum ion, GTPase activity is inhibited from about 25-60% as the magnesium ion concentration is reduced from 10(-3) to about 5 X 10(-5) M. The principal effect of aluminum ion upon Gv is to inhibit receptor catalyzed nucleotide exchange. Binding of the GTP analog 5'-guanylyl imidodiphosphate can be reduced by as much as 90% by aluminum ion following subsaturating rhodopsin stimulation. Aluminum ion can produce either competitive or mixed noncompetitive inhibition of rhodopsin-catalyzed Gv activation and GTPase activity, as a function of whether Gv undergoes single (competitive), or multiple (mixed noncompetitive) nucleotide exchanges. The rod photoreceptor phosphodiesterase is only slightly inhibited by similar aluminum ion activities. Light- and Gv-coupled phosphodiesterase activation exhibits both a lower maximum rate of cyclic guanosine monophosphate hydrolysis and a slower inactivation in the presence of aluminum ion activities from about 10(-12) - 10(-10) M. These data suggest that intracellular free aluminum ion concentrations in the subnanomolar range could markedly affect the ability of cells to transduce extracellular signals. Interestingly, the combination of Al3+ and F- to produce the fluoro-aluminate species (AlFx) also inhibits the GTPase of G-proteins, although the mechanism of inhibition (e.g. binding to the G-protein.Mg2+.GDP complex) is totally distinct from that observed for free Al3+ and the overall effect on signal transduction (e.g. enhanced signal amplification) is in complete opposition to that observed for free Al3+.
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PMID:Inhibition of transducin activation and guanosine triphosphatase activity by aluminum ion. 253 40

Opioid receptors of NG 108-15 cell membranes are distributed in two membrane fractions sedimenting at 20,000 g (P2) and 200,000 g(P3). The number of receptors is identical in P2 and P3, but in P2 all sites are present in one high-affinity state (2 nM), whereas in P3 60% of these receptors display lower affinity (150 nM). Upon addition of GTP or pretreatment with pertussis toxin, 80% of the sites exist in low affinity in both P2 and P3. Therefore, the effect of GTP and pertussis toxin on agonist binding appears to be smaller in P2 than in P3. In contrast, sodium inhibits agonist binding in P2 and P3 to the same extent and with identical potency. Opioid-mediated stimulation of GTPase is much greater in P2 than in P3, whereas inhibition of adenylate cyclase does not differ in the two fractions. Using site-specific antibodies and pertussis toxin-catalyzed ADP-ribosylation, we found that the amount of G proteins in P3 is only 30-50% of that in P2. Treatment of intact cells with the hydrophilic protein-modifying agent sulfosuccinimido-biotin results in biotinylation of proteins from both fractions and in a similar reduction of opioid binding in P2 and P3. Likewise, exposure of intact cells to the alkylating opioid antagonist, chlornaltrexamine, produces identical degrees of receptor inactivation in P2 and P3. The rate of in vivo pertussis toxin-mediated modification of G proteins is not different in the two fractions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Opioid receptors of neuroblastoma cells are in two domains of the plasma membrane that differ in content of G proteins. 253 79

The influence of nerve growth factor (NGF) on the activities of adenylate cyclase and high-affinity GTPase in pheochromocytoma PC12 cells was studied. Incubation of cells with nerve growth factor led to a rapid activation of adenylate cyclase accompanied by an inhibition of high-affinity GTPase. By the 10th min of incubation the activity of adenylate cyclase had been reduced 2-fold when compared to the control. The activity of GTPase, however, increased. No significant changes in the cAMP level were detected. The data obtained indicate that NGF interaction with PC12 cells induces changes in the adenylate cyclase system and this process involves G-proteins that regulate the adenylate cyclase activity.
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PMID:The influence of nerve growth factor on the activities of adenylate cyclase and high-affinity GTPase in pheochromocytoma PC12 cell. 254 Oct 15

Human Il-1 alpha induces the synthesis of kappa Ig L chains by the pre-B cell line 7OZ/3, IL-2R alpha by the human NK cell line YT, and PGE2 by human rheumatoid synovial cells. Pertussis toxin (PT) markedly inhibited all three IL-1-induced activation events. The inhibition by PT was associated with a decrease in IL-1-mediated cAMP production. PT also inhibited IL-1-stimulated cAMP production in crude membrane fractions from 7OZ/3, YT, and 3T3 fibroblasts. In addition, IL-1 stimulated GTPase activity present in the membranes IL-1-responsive cells. Furthermore, the IL-1-induced GTPase activity was sensitive to PT. PT induced the ADP-ribosylation of a 46-kDa substrate in membrane preparations from IL-1-responsive cells. Cholera toxin also induced the ADP-ribosylation of a 46-kDa substrate in the same membrane preparations. The present findings indicate that the IL-1R is linked to a PT-sensitive G protein that stimulates the activity of adenylate cyclase.
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PMID:Signal transduction pathway for IL-1. Involvement of a pertussis toxin-sensitive GTP-binding protein in the activation of adenylate cyclase. 254 9

Incubation of human platelets with protein kinase C activator 4 beta-phorbol-12 beta-myristate-13 alpha-acetate (PMA) abolished stimulation of membrane high-affinity GTPase by platelet-activating factor (PAF). GTPase stimulation by epinephrine decreased by 30%, while the prostaglandin E1 (PGE1) effect was unchanged. Basal GTPase activity (22.4 +/- 1.1 pmol Pi/min per mg protein) was not affected by PMA. Therefore, a study was performed of the effect of endogenous protein kinase C activation on adenylate cyclase regulation by agonists. PMA pretreatment completely suppressed PAF inhibition of basal adenylate cyclase activity but hardly influenced the inhibition by PAF of forskolin-stimulated activity. Adenylate cyclase inhibition by epinephrine in the presence of propranolol was not suppressed completely after platelet incubation with PMA. Epinephrine effects on basal and forskolin-stimulated activities decreased equally. Platelet pretreatment with PMA increased PGE1-stimulated activity by abolishing the inhibitory effect of high GTP concentrations. These studies indicate that protein kinase C selectively inhibits PAF effects, presumably by inactivating a GTP-binding protein coupled with PAF receptors.
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PMID:Selective inactivation by endogenous protein kinase C of human platelet high-affinity GTPase coupled with PAF receptors. 254 23

Different peptide hormones influence hormone secretion in pituitary cells by diverse second messenger systems. Recent data indicate that luteinizing-hormone-releasing hormone (LHRH) stimulates and somatostatin inhibits voltage-dependent Ca2+ channels of GH3 cells via pertussis-toxin-sensitive mechanisms [Rosenthal et al. (1988) EMBO J. 7, 1627-1633]. In other pituitary cell lines, somatostatin has been shown to cause a pertussis-toxin-sensitive decrease in adenylate cyclase activity, and LHRH and thyrotropin-releasing hormone (TRH) stimulate phosphoinositol lipid hydrolysis in a pertussis-toxin-independent manner. Whether stimulation of Ca2+ influx by TRH is affected by pertussis toxin is not known. In order to elucidate which of the hormone receptors interact with pertussis-toxin-sensitive and -insensitive G-proteins, we measured the effects of LHRH, somatostatin and TRH on high-affinity GTPases in membranes of GH3 cells. In control membranes, both LHRH and TRH stimulated the high-affinity GTPase by 20%, somatostatin by 25%. Maximal hormone effects were observed at a concentration of about 1 microM. Pretreatment of cells with pertussis toxin abolished pertussis-toxin-catalyzed [32P]ADP-ribosylation of 39-40-kDa proteins in subsequently prepared membranes and reduced basal GTPase activity. The toxin also reduced by more than half the increases in GTPase activity induced by LHRH and TRH; stimulation of GTPase by somatostatin was completely suppressed. Stimulation of adenylate cyclase by vasoactive intestinal peptide (VIP) was not impaired by pretreatment of cells with pertussis toxin. Somatostatin but not LHRH and TRH decreased forskolin-stimulated adenylate cyclase activity. The results suggest that the activated receptors for LHRH and TRH act via pertussis-toxin-sensitive and -insensitive G-proteins, whereas effects of somatostatin are exclusively mediated by pertussis-toxin-sensitive G-proteins.
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PMID:Secretion-stimulating and secretion-inhibiting hormones stimulate high-affinity pertussis-toxin-sensitive GTPases in membranes of a pituitary cell line. 256 42

In synaptic plasma membranes of rat striatum, activation of dopamine receptors stimulates a high affinity GTPase activity. The rank order of potency of various dopamine receptor agonists in increasing GTP hydrolysis is the following: (-)-propylnorapomorphine greater than (-)-apomorphine = (+/-)-2-amino-6,7-dihydroxy-1,2,3,4-tetrahydronaphthalene [(+/-)-A-6,7-DTN] greater than dopamine = LY 171555 greater than noradrenaline. The selective D-1 dopamine receptor agonist, SKF 38393, does not produce a significant increase in GTP hydrolysis. Moreover, the dopamine-stimulated GTPase activity is completely reversed by the D-2 receptor antagonists, 1-sulpiride and zetidoline, but not by the selective D-1 antagonist SCH 23390. Na+ modulates the dopamine receptor-regulated GTP hydrolysis by increasing the percentage of stimulation and decreasing the agonist potency. Intrastriatal injection of pertussis toxin, which impairs the function of the inhibitory guanine nucleotide binding regulatory protein (Ni) of adenylate cyclase, significantly reduces the dopamine stimulation of striatal GTPase activity and the dopamine inhibition of adenylate cyclase. In contrast, cholera toxin, which blocks the stimulation of GTPase activity by hormones which increase adenylate cyclase activity, does not modify the dopamine-stimulated GTPase activity. These data indicate that the stimulation of GTPase activity elicited by dopamine results from activation of the D-2 type of dopamine receptors and is expression of the increased turnover of GTP at the level of Ni. The results are consistent with the idea that Ni is involved in the inhibitory coupling of striatal D-2 receptors to adenylate cyclase.
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PMID:Pharmacological and biochemical characterization of dopamine receptors mediating stimulation of a high affinity GTPase in rat striatum. 282 Apr 23

Opioid-receptor binding and the opioid-mediated stimulation of low Km GTPase and inhibition of adenylate cyclase were studied in membranes derived from NG 108-15 cells pretreated with either the opioid peptide [D-Ala2, D-Leu5]enkephalin (DADLE) or morphine. Pretreatment with DADLE resulted in a concentration-dependent loss of responsiveness of GTPase to the peptide; this effect was entirely accounted for by a reduction in the maximal stimulation produced acutely by DADLE, without changes in the EC50 of the peptide, indicating a non-competitive type of desensitization. The degree of desensitization of GTPase was similar after one and 24 hr of pretreatment with DADLE, indicating that the process occurs rapidly. In contrast, morphine, which was 70-80% as potent as DADLE in stimulating GTPase and inhibiting adenylate cyclase in acute conditions, induced only a minimal desensitization of the opioid-GTPase system and, in contrast to DADLE, did not desensitize adenylate cyclase. Pretreatment with DADLE for one hour led to a decrease in opioid receptor density which was quantitatively similar to the degree of desensitization of GTPase: both these effects of DADLE were antagonized to a similar extent when morphine was also present in the pretreatment. Thus, desensitization of the opioid-stimulated GTPase appears to be correlated with down-regulation of the opioid receptor. Moreover, these findings suggest that partial agonists cannot induce this process.
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PMID:Opioid receptor desensitization in NG 108-15 cells. Differential effects of a full and a partial agonist on the opioid-dependent GTPase. 282 Apr 24


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