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: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Functional coupling between mu-opioid receptors and GTP-binding regulatory proteins (G proteins) was investigated in reconstituted membranes of the guinea pig striatum. Selective mu-opioid agonists stimulated low-Km GTPase in striatal membranes, in a Na(+)-dependent manner. The same mu-opioid agonist [( D-Ala2, N-Me-Phe4, Gly5-ol]-enkephalin (DAGO)] caused no stimulation when the membranes were exposed to islet-activating protein (IAP; pertussis toxin). There was also no DAGO stimulation in preparations pretreated with a lower concentration (5 microM) of N-ethylmaleimide (NEM), which abolished the ADP-ribosylation of purified Gi (the G protein that mediates inhibition of adenylate cyclase) and Go (a G protein of unknown function purified from bovine brain) by IAP. In addition, as the NEM treatment caused no change in the mu-agonist binding, NEM could probably substitute for IAP in inactivating native G proteins, without exhibiting effects on the receptor binding in membranes. The mu-agonist stimulation of low-Km GTPase activity in NEM-treated membranes was recovered by reconstitution with purified Gi or Go. The mu-agonist stimulation of low-Km GTPase was additive when Gi and Go were simultaneously reconstituted in NEM-treated membranes in amounts of 0.5 pmol/assay, which was required for maximal recovery, in either reconstitution experiment. The present findings provide the first evidence that the mu-opioid receptor may exist in at least two different forms, separately coupled to Gi or Go.
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PMID:Functional reconstruction of purified Gi and Go with mu-opioid receptors in guinea pig striatal membranes pretreated with micromolar concentrations of N-ethylmaleimide. 215 51

Chronic opioid treatment of neuroblastoma x glioma NG108-15 cells induces desensitization of the opioid receptor and this may involve a change in membrane protein phosphorylation. In an attempt to mimic this possible mechanism, we studied effects of phorbol ester activation of protein kinase C on opioid receptor activity. Incubation of NG108-15 hybrid cells with the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) abolished up to 45% of opioid inhibition of cyclic AMP accumulation in intact cells, while basal accumulation and prostaglandin E1-stimulated cyclic AMP accumulation were unaltered. This decrease of opioid inhibition was dose- and time-dependent and the potency order of phorbol esters and apparent K activation (90 nM) for TPA were consistent with phorbol esters acting through the stimulation of protein kinase C. TPA also decreased the inhibition of cyclic AMP accumulation mediated through muscarinic and alpha-2 adrenergic receptors. These effects of TPA were best explained by a TPA-induced alteration of the inhibitory nucleotide-binding protein (Gi), the common transducer protein of these receptors. Impairment of Gi by TPA treatment was evidenced by a reduction in agonist-stimulated GTP hydrolysis and activation by GTP. Quantification of Gi by pertussis toxin-catalyzed ADP-ribosylation revealed that TPA decreased maximal labeling. In summary, phorbol esters appeared to attenuate opioid receptor activity by altering the activity of the transducer protein Gi.
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PMID:Attenuation of opioid receptor activity by phorbol esters in neuroblastoma x glioma NG108-15 hybrid cells. 215 50

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

The receptor-mediated inhibition of intrinsic activities of GTP-binding proteins (G-proteins) was studied. Pertussis toxin (IAP)-substrate G-protein, Gi1, Gi2 or G0, was prelabeled with [alpha-32P]GDP and reconstituted with synaptic membranes of the guinea pig cerebellum in the presence of 0.02% of Chaps. Intrinsic activities of G-proteins were evaluated by the release of [alpha-32P]GDP in exchange for added GppNHp or GDP in reconstituted preparations. U-50,488H (1 nM-10 microM), a specific kappa-subtype of opioid receptor agonist, inhibited the [alpha-32P]GDP release in exchange for added 1 microM GppNHp in Gi1-reconstituted preparations in a concentration-dependent manner. On the other hand, the kappa-opioid agonist at 10 microM increases the Km values of GppNHp, but not GDP in exchange for [alpha-32P]GDP release in preparations reconstituted with Gi1 or Gi2, but not with G0. These findings indicate that kappa-opioid receptor is coupled to inhibition of intrinsic activities of Gi1 and Gi2, but not G0, in guinea pig cerebellar membranes. In addition, it was revealed that the mode of action is mediated by a decrease in affinity of GTP (or its analog) for G proteins, but not by a change in affinity of GDP.
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PMID:Evidence for receptor-mediated inhibition of intrinsic activity of GTP-binding protein, Gi1 and Gi2, but not G0 in reconstitution experiments. 216 86

The effect of both chronic and acute lithium treatment on hypothalamic opioid peptides was investigated. Acute treatment with lithium was found to stimulate the release of beta-endorphin, dynorphin and Met-enkephalin from perfused rat hypothalamic slices. Application of tetrodotoxin was found to have no effect upon the stimulation indicating it to be mediated at the nerve terminal level. The release of hypothalamic opioid peptides is known to be under the chronic control of a system of inhibitory autoreceptors. Blockade of these autoreceptors with, for example, the opioid receptor antagonist naloxone causes a release of all three opioid peptides. Simultaneous addition of naloxone and lithium was found to have no additive effect on the release of any opioid, suggesting lithium acts via an inhibition of the inhibitory autoreceptor. Preincubation with pertussis toxin prevented the lithium stimulation of dynorphin and Met-enkephalin, but not beta-endorphin, release, indicating lithium interacts with a G-protein to affect the autoreceptor controlling the release of dynorphin and Met-enkephalin. Chronic treatment with lithium in vivo (10 days) had no effect on the basal release or hypothalamic content of any of the opioids, but prevented the naloxone-stimulated release of dynorphin and Met-enkephalin in vitro. Long-term treatment with lithium would thus appear to inactivate the autoreceptor(s) controlling their release. These data demonstrate a lithium-stimulated release of hypothalamic beta-endorphin, Met-enkephalin and dynorphin, apparently mediated via an inhibition of the autoreceptors controlling their release. Chronic treatment with lithium permanently inactivated the autoreceptor(s) controlling the release of dynorphin and Met-enkephalin but not beta-endorphin. Lithium would appear to mediate its effects upon Met-enkephalin and dynorphin release via an interaction with a pertussis toxin-sensitive G-protein. The mechanisms underlying its release of beta-endorphin are at present uncertain.
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PMID:Stimulation of hypothalamic opioid peptide release by lithium is mediated by opioid autoreceptors: evidence from a combined in vitro, ex vivo study. 217 62

Tests were carried out to determine if the tolerance that develops in dorsal-horn network responses of mouse dorsal root ganglion (DRG)-spinal cord explants after chronic exposure to opioids could be accounted for by alterations in the excitability and pharmacologic properties of the afferent DRG cells. Intracellular recordings were made from DRG neurons in organotypic DRG-cord explants after chronic treatment with 1 microM D-Ala2-D-Leu5-enkephalin (DADLE) for greater than 4 days in vitro. Acute application of 10 microM DADLE shortened the duration of the Ca2+ component of the somatic action potential (APD) in only 5% of the treated neurons (4 out of 79 cells), in contrast to about 50% of the cells in naive explants (36 out of 74). Thus many DRG neuron perikarya became tolerant to the APD-shortening effects of DADLE. Furthermore, 77% of the treated DRG cells (61 out of 79) showed prolongation of the APD in response to an acute increase in DADLE concentration vs 34% in naive explants (25 out of 74). However, when the DADLE responsivity tests were carried out in the presence of multiple K+ channel blockers, only 20% of the treated DRG neurons showed APD prolongation (3 out of 15 cells), whereas 73% showed APD-shortening responses (11 out of 15 cells). The results suggest that: (1) DADLE-induced APD prolongation of the treated DRG neurons is mediated by opioid receptor subtypes that decrease a voltage-sensitive K+ conductance; (2) the DADLE-induced APD-shortening effects which are unmasked during more complete K+ channel blockade are mediated by opioid-receptor subtypes in the same neuron that reduce a voltage-sensitive Ca2+ conductance (resembling kappa receptors). DRG neurons did not become tolerant to either of these two opioid effects after chronic exposure to DADLE. Opioid shortening of the APD of DRG neuron perikarya has been generally accepted to be a model of opioid inhibition of calcium influx and transmitter release at presynaptic DRG terminals6,52,53,65,75,76. It is postulated that the opioid-induced APD prolongation observed in the present study provides evidence that opioids can also evoke direct excitatory effects on neurons. The enhancement of DADLE-induced excitatory responses and attenuation of DADLE-induced inhibitory responses of DRG neurons after chronic exposure to this opioid show striking similarities to the effects of forskolin or pertussis toxin treatment. These in vitro studies may provide clues to compensatory mechanisms underlying physiologic expression of tolerance to opioid analgesic effects in primary afferent synaptic networks.
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PMID:Opioids excite rather than inhibit sensory neurons after chronic opioid exposure of spinal cord-ganglion cultures. 245 69

Receptor-mediated inhibition of brain adenylate cyclase activity has been well characterized at the biochemical level. However, less understood is how these, typically modest, inhibitory effects on cyclase activity correlate with the electrophysiological activity of brain preparations. In addressing this question, we injected pertussis toxin (PT) into the nucleus caudate-putamen of intact rats, and observed a subsequent attenuated inhibition of adenylate cyclase activity in caudate membranes, which correlated with altered electrophysiological activity in this nucleus. PT completely abolished and electrophysiological activity in this nucleus. PT completely abolished and significantly reduced, respectively, dopamine D2 and opioid receptor-mediated inhibition of adenylate cyclase. In addition, pretreatment of rat caudate nuclei with PT attenuated the amount of in vitro ADP-ribosylation of 41,000 and 39,000 Da PT substrates measured in caudate membranes. Extracellular recording of the spontaneous activity of caudate neurons revealed that PT pretreatment significantly increased firing rates above those of cells recorded from sham-operated and unoperated controls. Furthermore, a significantly greater number of cells pretreated with PT displayed interspike intervals less than 50 ms, reflecting 'burst-like' activity. In short, the inactivation of G-proteins serving as PT substrates in rat caudate-putamen renders caudate cells more likely to fire spontaneously, and to fire in bursting, rather than uniform, patterns of activity. These observations suggest that PT substrates identical or similar to those which regulate adenylate cyclase, play a significant role in governing the electrophysiological behavior of intact caudate neurons.
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PMID:Pertussis toxin lesioning of the nucleus caudate-putamen attenuates adenylate cyclase inhibition and alters neuronal electrophysiological activity. 250 88

We have characterized the pertussis toxin substrate in NG 108-15 cell membranes using site-specific antisera and ADP-ribosylation. Cell membranes contain two pertussis toxin-sensitive guanine nucleotide-binding protein alpha-subunits (G alpha) whose Rf values in gel electrophoresis coincide with those of G alpha o and G alpha i2. The total quantity of Gi and Go immunoreactivity amounted to 24.3 +/- 2.8 pmol/mg, whereas only 1.5 +/- 0.2 pmol/mg are capable of undergoing ADP-ribosylation catalyzed by pertussis toxin. Pretreatment of cells with the agonist [D-Ala2,D-Leu2]-enkephalin (DADLE) for 24 h and DADLE or morphine for 72 h did not alter the incorporation of ADP-ribose or the immunoreactive amount of Gi and Go subunits. However, pretreatment for 72 h with naloxone increased the incorporation of ADP-ribose without an apparent change in affinity or in the immunochemically determined protein levels of Gi and Go. This indicates that the process of down-regulation and desensitization of the delta-opioid receptor neither requires quantitative alterations in the levels of Gi and Go nor changes in the degree of coupling among their subunits. In contrast, chronic exposure to antagonists seems to alter the degree of precoupling between alpha- and beta-subunits of Gi and/or Go.
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PMID:Chronic exposure of NG 108-15 cells to opiate agonists does not alter the amount of the guanine nucleotide-binding proteins Gi and Go. 250 42

Opioid receptors solubilized in Mg2+-digitonin (2%, wt/vol) from Mg2+-pretreated rat brain membranes maintain, in addition to high-affinity opioid agonist binding, the modulation by guanine nucleotides. One of the modes of expression of the latter property is an attenuation of agonist binding by guanine nucleotides in the presence of Na+. To investigate the molecular basis of this modulation and to identify the G protein(s) involved, the soluble receptors were [32P]ADP-ribosylated by means of Bordetella pertussis toxin and subjected to molecular size exclusion chromatography. In addition, soluble extracts were chromatographed on lectin and hydrophobic affinity columns. The binding of 35S- and 3H-labelled analogues of GTP was also monitored in the species separated. The oligomeric G protein-coupled opioid receptors and the guanine nucleotide/pertussis toxin-sensitive species showed similar chromatographic properties in all three systems. This indicates that the biochemically functional G protein-opioid receptor complex formed in Mg2+-pretreated membranes in the absence of an agonist is stable in digitonin solution and to chromatographic separation. Further analysis showed that the guanine nucleotide modulation of opioid receptors is via the pertussis toxin substrates with Mr of 41,000 and 39,000, which are identified as Gi and Go alpha subunits, respectively.
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PMID:Opioid receptors in magnesium-digitonin-solubilized rat brain membranes are tightly coupled to a pertussis toxin-sensitive guanine nucleotide-binding protein. 253 69

In this study, the influence of the inhibitory mu-opioid receptor on the potencies of 5'-guanosine alpha-thiotriphosphate (GTP gamma S) and GDP at the inhibitory GTP-binding protein (Gi) were investigated in an adenylyl cyclase system. It was hoped that a receptor-mediated change in the potency of either GTP gamma S or GDP in affecting adenylyl cyclase activity may elucidate how a receptor alters cyclase activity via its G-protein. In an adenylyl cyclase system employing 5'-adenylyl imidodiphosphate as substrate, GTP gamma S, a nonhydrolyzable analog of GTP, inhibited forskolin-stimulated adenylyl cyclase activity in the absence of morphine; morphine failed to significantly affect the apparent potency of GTP gamma S. GDP blocked the GTP gamma S-induced inhibition of adenylyl cyclase; morphine profoundly diminished the ability of GDP to block the inhibitory effect of GTP gamma S. The IC50 values of GTP gamma S were 0.02 +/- 0.01, 0.18 +/- 0.04, and 2.2 +/- 0.5 microM in the absence of other drugs, in the presence of a combination of 100 microM GDP and morphine, and in the presence of 100 microM GDP, respectively. GDP blocked the inhibitory effect of GTP gamma S (0.3 microM) in a concentration-dependent manner; the EC50 for GDP was 16 +/- 2.6 microM in the absence of morphine and 170 +/- 32 microM in the presence of morphine. Exposure of 7315c cells to pertussis toxin for 3 h resulted in a small decrease in the potency of GTP gamma S in inhibiting cyclase. However, the relative potency of GDP in blocking the GTP gamma S-mediated inhibition of cyclase was increased: the EC50 values of GDP were 11 +/- 4 and 0.81 +/- 0.2 microM in untreated and pertussis toxin-treated membranes, respectively. In untreated membranes, there was a brief lag in the GTP gamma S-induced inhibition of adenylyl cyclase; morphine diminished this lag. In membranes treated with pertussis toxin, there was an exaggerated lag in the onset of GTP gamma S inhibition of adenylyl cyclase activity; morphine could no longer affect this lag. Thus, uncoupling the mu-opioid receptor from Gi appeared to increase the affinity of Gi for GDP. These data suggest that the effect of an inhibitory receptor is to decrease the affinity of Gi for GDP by virtue of its interaction with the carboxy-terminal region of Gi alpha.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Site of pertussis toxin-induced ADP-ribosylation on Gi is critical for receptor modulation of GDP interaction with Gi. 254 Apr 29


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