UNIPROT:P06889 - FACTA Search

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In intact NIH 3T3 murine fibroblasts, prostaglandins (PGs) F2 alpha and E2 induce dose-dependent stimulation of inositol monophosphate generation. PGF2 alpha is greater than 50-fold more potent than PGE2 in eliciting this response. In streptolysin O-permeabilized NIH 3T3 cells, PGF2 alpha and PGE2 induced dose-dependent accumulations of inositol bis- and trisphosphates, which were dependent on the presence of the guanine nucleotide guanosine-5'-O-(3-thio)triphosphate (GTP gamma S) (10 microM). Pretreatment of cells for 16 hr with 100 nM PGF2 alpha resulted in a significant reduction of not only subsequent PGF2 alpha- and PGE2-induced but also GTP gamma S-induced stimulation of inositol phosphate formation in permeabilized cells. PGF2 alpha-induced accumulation of inositol phosphates was partially inhibited by pretreatment with pertussis toxin (1 microgram/ml, 4 hr). The inhibition by pertussis toxin was small but was not related to cyclic AMP formation, because forskolin, which activates adenylate cyclase, did not mimic pertussis toxin-induced inhibition. In the same cell line, PGF2 alpha and PGE2 induced a dose-dependent accumulation of cAMP and a dose-dependent potentiation of 0.5 microM forskolin-stimulated cAMP formation. PGF2 alpha and PGE2 were almost equipotent in eliciting both responses. However, PGF2 alpha was less efficacious than PGE2 and, in the presence of forskolin, PGF2 alpha at 10 microM induced an inhibitory effect on cAMP accumulation. Such inhibition may be related to PGF2 alpha-mediated phospholipase C activation and subsequent stimulation of protein kinase C, because the phorbol ester phorbol 12-myristate-13-acetate, which directly activates protein kinase C, also inhibited forskolin- and PGE2-induced cAMP accumulation. Pretreatment with PGF2 alpha for 16 hr did not reduce subsequent stimulation of cAMP accumulation by PGF2 alpha or PGE2. The results indicate that in NIH 3T3 cells two receptors for PGs are present, one that couples to adenylate cyclase, probably through Gs, and does not exhibit selectivity between PGF2 alpha and PGE2 and a second receptor that couples to phospholipase C through a guanine nucleotide-binding protein that is not sensitive to pertussis toxin pretreatment. The latter shows at least 40-fold selectivity towards PGF2 alpha over PGE2. Because long treatment with PGF2 alpha resulted in desensitization of the GTP gamma S-induced response, it is possible that long exposure to PGF2 alpha may down-regulate the guanine nucleotide-binding involved in phospholipase C signal transduction.
Mol Pharmacol 1991 Nov
PMID:Prostaglandin receptors in NIH 3T3 cells: coupling of one receptor to adenylate cyclase and of a second receptor to phospholipase C. 165 2

alpha 2-Adrenergic receptor (alpha 2-AR) responses are mediated by the pertussis toxin-sensitive guanine nucleotide-binding protein (G protein) Gi. Because all three known Gi subtypes are inactivated by pertussis toxin, it has been difficult to determine which of the subtypes are involved in alpha 2-AR responses. In order to investigate alpha 2-AR/Gi coupling, we performed binding and adenylyl cyclase experiments in membranes from CHO-K1 cells transfected with the human alpha 2A-AR. Antisera directed against the carboxyl-terminal region of the Gi1/Gi2 or the Gi3 proteins were used to determine which subtypes were important for high affinity agonist binding and inhibition of adenylyl cyclase. The CHO-K1 cell membranes exhibited immunoreactivity at an apparent molecular mass of 40-41 kDa for both Gi1/Gi2 and Gi3 antisera. Western blot analysis, using purified bovine brain G proteins for comparison, demonstrated that the transfected CHO-K1 cells possess Gi2 and Gi3. High affinity guanosine 5'-(beta,gamma-imido) triphosphate-sensitive binding of the alpha 2-AR agonists [3H]bromoxidine and p-[125I]iodoclonidine ([125I]PIC) was reduced by 30-50% by either the Gi1/Gi2 or Gi3 antiserum. Bromoxidine (1 microM) and PIC (1 microM) inhibited membrane adenylyl cyclase by 34 and 27%, respectively. Gi3 antiserum reduced the inhibition by 26% and 67% for bromoxidine and PIC, respectively. The Gi1/Gi2 antiserum reduced the inhibition by 56% and 63% for bromoxidine and PIC, respectively. Furthermore, when both antisera were used together, there was a complete reversal of alpha 2-AR-mediated inhibition. These observations provide evidence of alpha 2A-AR coupling to at least two subtypes of Gi proteins and the first evidence of functional involvement of Gi3 in the inhibition of adenylyl cyclase.
Mol Pharmacol 1991 Nov
PMID:Multiple Gi protein subtypes regulate a single effector mechanism. 165 6

In the rat pituitary cell line GH3, carbachol inhibits PRL secretion in a pertussis toxin-sensitive manner. For elucidation of the underlying mechanisms, we studied the effect of carbachol on voltage-dependent Ca2+ currents. Under voltage-clamp conditions, carbachol inhibited whole-cell Ca2+ currents by about 25%. This inhibitory action of carbachol was not observed in cells treated with pertussis toxin, indicating the involvement of a pertussis toxin-sensitive G-protein. In membranes of GH3 cells, carbachol stimulated a pertussis toxin-sensitive high-affinity GTPase. In immunoblot experiments with peptide antisera, we identified two forms of the Gi alpha-subunit (41 and 40 kDa) and two forms of the Go alpha-subunit (40 and 39 kDa). The 40-kDa Gi alpha-subunit was recognized by an antibody specific for the Gi2 alpha-subunit, and the 39-kDa Go alpha-subunit was detected by an antibody specific for the Go2 alpha-subunit. Incubation of membranes with the photoreactive GTP analog [alpha-32P]GTP azidoanilide resulted in photo-labelling of 40- and 39-kDa pertussis toxin substrates comigrating with G-protein alpha-subunits of the corresponding molecular masses. Carbachol dose-dependently stimulated incorporation of the photoreactive GTP analog into the 39-kDa pertussis toxin substrate and, to a lesser extent, into 40-kDa pertussis toxin substrates. The data indicate that muscarinic receptors of GH3 cells couple preferentially to Go, which is likely to be involved in the inhibition of secretion, possibly by conferring an inhibitory effect to voltage-dependent Ca2+ channels.
Mol Endocrinol 1991 Jul
PMID:Inhibition of voltage-dependent Ca2+ currents and activation of pertussis toxin-sensitive G-proteins via muscarinic receptors in GH3 cells. 165 34

1. Agonist activation of rat retina muscarinic receptors results in suppression of cyclic AMP (cAMP) generation and enhanced phosphoinositide hydrolysis. 2. Pharmacological manipulations that elevate cAMP or stable analogues of cAMP attenuate the acetylcholine (ACh)-induced enhancement of phosphoinositide hydrolysis. We postulate that cross-talk between adenylate cyclase and phospholipase C signal transducing systems probably exists in rat retina, as has been described for other systems. 3. Intraocular administration of pertussis toxin attenuated the response of both adenylate cyclase and phospholipase C to muscarinic stimulation, suggesting that some retinal muscarinic receptors are apparently coupled to their effector systems via pertussis toxin sensitive G proteins.
Cell Mol Neurobiol 1991 Oct
PMID:Modulation of muscarinic receptor-mediated adenylate cyclase and phospholipase C responses in rat retina. 166 Mar 49

We have, in the accompanying work, demonstrated the coexistence of M2 and M3 muscarinic receptors in the circular smooth muscle of canine colon. In the present study, the effects of muscarinic receptor stimulation on phosphoinositide turnover and adenylate cyclase activity were examined. In myo-[3H]inositol-labeled circular smooth muscle strips, carbachol caused a concentration-dependent (EC50 = 5 microM) increase in [3H]inositol phosphate production. The more M3 receptor-selective muscarinic antagonist pirenzepine (KB = 53 nM) was approximately 60 times more potent than the more M2-selective agent AF-DX 116 (KB = 3 microM) in blocking carbachol-elicited accumulation of [3H]inositol phosphates. The carbachol-stimulated increase in [3H]inositol phosphate accumulation was not affected by pretreatment of the tissue with pertussis toxin (200 ng/ml, 3 hr). Within the first minute, carbachol (100 microM) caused a rapid and transient increase of [3H]inositol 1,4,5-trisphosphate production that oscillated continuously in the presence of agonist (120 min). The accumulation of [3H]inositol 1,3,4-trisphosphate was also extremely rapid, reaching a peak at 15 sec. The accumulation of [3H]inositol monophosphate was delayed and progressively increased over 30 min. [3H]inositol 1,3,4,5-tetrakisphosphate, although not detectable in the first minute, accumulated to significant levels over 30 min in the presence of agonist. Addition of carbachol in the adenylate cyclase assay caused inhibition of forskolin-stimulated [32P]cAMP production and blocked forskolin-stimulated cAMP accumulation in the intact tissue. The inhibitory effects of carbachol on adenylate cyclase were blocked by atropine, AF-DX 116, and 4-diphenylacetoxy-N-methylpiperidine methobromide but were unaffected by the more M3-selective agent pirenzepine (1 microM). Pretreatment of tissues with pertussis toxin completely eliminated M2 receptor-mediated inhibition of adenylate cyclase activity, without altering inositol 1,4,5-trisphosphate accumulation. We conclude that muscarinic receptor stimulation of inositol trisphosphate production is mediated by the M3 receptor coupled to a pertussis toxin-insensitive GTP-binding protein and results in the rapid formation of inositol tetrakisphosphate, whereas inhibition of adenylate cyclase activity is mediated by the M2 subtype of muscarinic receptor coupled to the pertussis toxin-sensitive GTP-binding protein Gi.
Mol Pharmacol 1991 Dec
PMID:Muscarinic receptors in canine colonic circular smooth muscle. II. Signal transduction pathways. 166 40

In homogenate of rat olfactory bulb, the opioid receptor agonists beta-endorphin, Leu-enkephalin, and dynorphin A stimulated adenylate cyclase activity in a concentration-dependent manner, with half-maximal effects displayed at 22, 63, and 176 nM, respectively. The maximal stimulation of the enzyme activity corresponded to about a 40% increase of basal activity for all three peptides. Naloxone antagonized the stimulation of beta-endorphin, Leu-enkephalin, and dynorphin A, with pA2 values of 8.0, 7.7, and 8.1, respectively. Kinetic analysis performed with Leu-enkephalin showed that the opioid peptide increased the Vmax of the enzyme, without changing the Km for the substrate Mg-ATP. Moreover, the opioid stimulation was associated with a significant increase of the affinity of the enzyme for Mg2+ activation and occurred in membranes incubated in a Ca2(+)-free medium. Addition of exogenous GTP at micromolar concentrations was absolutely necessary for the detection of the opioid effect. Treatment of olfactory bulbs with cholera toxin did not alter the stimulation of adenylate cyclase by Leu-enkephalin. However, the opioid stimulation disappeared in membranes obtained from bulbs injected with pertussis toxin. These results demonstrate the presence in the brain of a new functional class of opiate receptors coupled to stimulation of adenylate cyclase via a transduction mechanism that is Ca2+ independent and seems to involve a pertussis toxin-sensitive GTP-binding protein.
Mol Pharmacol 1991 Apr
PMID:Naturally occurring opioid receptor agonists stimulate adenylate cyclase activity in rat olfactory bulb. 167 23

Cholera toxin treatment (up to 1 microgram/ml, 16 h) of neuroblastoma x glioma hybrid NG108-15 cells produced a decrease of some 35% in both delta opioid receptor-mediated stimulation of high-affinity GTPase activity and inhibition of forskolin-amplified adenylate cyclase. Coincident with these decreases was a down-regulation of some 35% in the delta opioid receptor population. A similar pattern of a decrease in signalling capacity was noted for the alpha 2B-adrenergic receptor in these cells after cholera toxin treatment. Half-maximal effects of cholera toxin on all of the parameters assayed were noted at concentrations between 2 and 5 ng/ml. Neither levels of Gi2, as assessed by immunoblotting with specific antisera, nor the intrinsic activity of the alpha subunit of the guanine-nucleotide-binding protein which acts as the inhibitory G-protein of the adenylate cyclase in these cells, as assessed by guanosine 5'-[beta gamma-imido]triphosphate (Gpp[NH]p)-mediated inhibition of adenylate cyclase, was lowered by cholera toxin treatment. Furthermore, levels of another pertussis toxin-sensitive G-protein (Go) expressed by these cells was also not lowered by cholera toxin treatment. However, as previously noted in other cells [Milligan, Unson & Wakelam (1989) Biochem. J. 262, 643-649], marked down-regulation of the alpha subunit of the stimulatory G-protein (Gs) of the adenylate cyclase cascade was observed in response to cholera toxin treatment. Previous studies [Klee, Milligan, Simonds & Tocque (1985) Mol. Aspects Cell Regul. 4, 117-129] have shown that cholera toxin treatment can result in a decrease in the maximal effectiveness of agonists which function to inhibit adenylate cyclase. These data have been used as evidence to suggest a functional interaction between Gs and 'Gi'. The results provided herein demonstrate that such effects of the toxin can be explained adequately by a decrease in the number of receptors that function to produce inhibition of adenylate cyclase.
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PMID:Cholera toxin impairment of opioid-mediated inhibition of adenylate cyclase in neuroblastoma x glioma hybrid cells is due to a toxin-induced decrease in opioid receptor levels. 167 34

Y-79 human retinoblastoma cells can be induced to express significant quantities of functional D2 dopamine receptors after attachment and differentiation with sodium butyrate. In membranes prepared from differentiated Y-79 cells, the D2 dopaminergic antagonist [3H] methylspiperone exhibits a KD of 77 pm and a Bmax of 60 fmol/mg of protein, whereas the antagonist [125I]iodosulpride reveals a KD of 0.77 nM and a Bmax of 40 fmol/mg of protein. Dopamine also induces a pharmacologically specific, pertussis toxin-sensitive, dose-dependent inhibition of forskolin-stimulated adenylyl cyclase activity, with an EC50 of 2 microM and a maximal response at 100 microM (approximately 50% enzyme inhibition). Pretreatment of the cells with dopamine results in a diminution in the subsequent ability of dopamine to inhibit adenylyl cyclase activity. This effect is time dependent, reaching maximal desensitization after approximately 24 hr. The dopamine dose-response curve for inducing desensitization exhibits an EC50 of approximately 2-3 microM and a maximal response at approximately 0.1-1 mM, similar to that for inhibiting adenylyl cyclase activity. After maximal desensitization, the EC50 for dopamine-induced inhibition of adenylyl cyclase activity is increased greater than 20 fold (lower affinity) and the maximum inhibition is decreased to approximately 15%, representing an approximately 70% desensitization. The agonist-induced desensitization is pharmacologically specific, inasmuch as preincubation of the cells with the dopaminergic agonists epinine and (+-)-2-amino-6,7-dihydroxy-1,2,3,4-tetrahydronaphthalene or the D2-selective agonist N-0434 also results in desensitization of dopamine-induced inhibition of enzyme activity, whereas preincubation with the D1-selective agonist SKF-38393 or with the nondopaminergic agonists isoproterenol and serotonin results in little or no desensitization. Preincubation of the cells with dopamine also promotes a time-dependent increase (approximately 3-fold) in the KD for [3H]methylspiperone, with no change in its Bmax. In contrast, after dopamine preincubation, the KD for [125I]iodosulpride is unchanged, whereas its Bmax is reduced by approximately 50% upon maximum desensitization. In addition, agonist pretreatment promotes a functional uncoupling of the D2 receptor, as suggested by a loss of high affinity agonist binding observed in radioligand competition binding assays after desensitization. Upon removal of agonist, the cellular D2 receptor binding activity and functional response recover to control levels within a 24-hr period. These results suggest that prolonged exposure of cells to dopaminergic agonists initiates a desensitization process involving a functional uncoupling of the D2 dopamine receptor as well as a loss of its ligand binding activity.
Mol Pharmacol 1991 May
PMID:Agonist-induced desensitization of D2 dopamine receptors in human Y-79 retinoblastoma cells. 167 85

We previously have shown that treatment of neonatal rats (days 1-10) with Nerve Growth Factor (NGF) or its antibody (Ab) modifies alpha-adrenergic receptor-effector coupling, such that innervated hearts at day 10 show high levels of a 41 kDa GTP regulatory protein (G protein) that is a substrate for pertussis toxin and that links the alpha 1-receptor to the Na/K pump. This receptor-effector pathway results in alpha adrenergic-induced decreases in automaticity. In contrast, non-innervated hearts at day 10 show lower levels of the pertussis toxin sensitive G-protein and increases in automaticity induced by alpha-agonist. We now report the effects of administration of NGF, Ab or placebo on beta-adrenergic receptor-effector coupling in neonatal rats. Rats were administered NGF, Ab or placebo on days 1-10 of life. On day 10, the beta-receptor number and affinity and the stimulatory G-protein, Gs, were equivalent across groups. Moreover, the ventricular automatic response to beta-adrenergic receptor stimulation was equivalent across groups suggesting there was no change in receptor-effector coupling as a result of the difference in innervation. These results on beta-adrenergic receptor-effector coupling considered in light of our prior studies on alpha-adrenergic coupling suggest that the development of sympathetic innervation is more a determinant of alpha than beta adrenergic modulation of ventricular rhythm.
J Mol Cell Cardiol 1991 Feb
PMID:Beta adrenergic modulation of cardiac rhythm in a rat model of altered sympathetic neural development. 167 58

Pretreatment of 1321N1 human astrocytoma cells with phorbol 12-myristate-13-acetate or other activators of protein kinase C led to 2.5- to 5-fold increases (sensitization) in subsequent stimulation by forskolin of intracellular cyclic AMP accumulation. These compounds caused much smaller or no increases in receptor-mediated stimulation of cyclic AMP accumulation induced by isoproterenol and by prostaglandin E1. Carbachol and histamine, agonists acting at receptors coupled to polyphosphoinositide turnover in these cells, induced less sensitization of subsequent stimulation by forskolin but greater sensitization of stimulation by isoproterenol and by prostaglandin E1. The specificities of various analogs of phorbol 12-myristate-13-acetate, for induction of sensitization of forskolin stimulation were consistent with involvement of protein kinase C. The effects of protein kinase inhibitors and of down-regulation of protein kinase C activity also indicated involvement of protein kinase C in sensitization of forskolin stimulation, although additional mechanisms are likely to be involved in sensitization of isoproterenol stimulation. Neither pertussis toxin pretreatment nor inclusion of isobutylmethylxanthine during assays of cyclic AMP accumulation were able to prevent or mimic these sensitization phenomena, suggesting that the primary site of modification responsible for sensitization is neither the inhibitory guanine nucleotide-binding protein nor cyclic AMP phosphodiesterase. Sensitization was only observed in assays with intact cells. These results, together with those from our previous study describing protein kinase C-mediated desensitization of broken cell adenylate cyclase activity, indicate that activation of protein kinase C leads to multiple changes in the receptor-stimulated adenylate cyclase signal transduction pathway of these cells.
Mol Pharmacol 1990 Feb
PMID:Protein kinase C activators sensitize cyclic AMP accumulation by intact 1321N1 human astrocytoma cells. 168 54

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