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)

Chronic treatment of neuroblastoma x glioma NG108-15 hybrid cells with the opioid agonist D-Ala,2 D-Leu5-enkephalin (DADLE) induces a homologous desensitization of the delta opioid receptors present in these cells. Since the Kd value of the delta opioid receptor's high-affinity state reflects the potency of the agonist, we examined the effect of receptor desensitization in NG108-15 cells on the percentage of receptor in the high-affinity state. When NG108-15 hybrid cells were treated with 10 or 100 nM DADLE for 4 hr at 24 degrees C, loss of DADLE's ability to inhibit adenylate cyclase was observed. However, when competition binding experiments were carried out with P2P3 membranes isolated from the delta opioid-desensitized hybrid cells, it was determined that 41.7 +/- 3.4% of the total binding sites remained in the high-affinity state, with no apparent alteration in the Kd value of either high- or low-affinity states. Similarly, when NG108-15 cells were treated with 100 ng/ml of pertussis toxin for 3 hr at 37 degrees C, 39.9 +/- 3.6% of the binding sites remained in the high-affinity state. This reduction in the percentage of receptor in high-affinity state was agonist specific, for chronic treatment of hybrid cells with levorphanol, a partial agonist, or the antagonist naloxone did not alter the percentage of opioid receptors in the high-affinity state. Furthermore, the delta opioid receptors remaining in the high-affinity state after chronic DADLE treatment were still sensitive to both Na+ and guanyldylimidodiphosphate, indicating that opioid ligand binding remained coupled to the G-proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of chronic D-Ala,2 D-Leu5-enkephalin or pertussis toxin treatment on the high-affinity state of delta opioid receptor in neuroblastoma x glioma NG108-15 hybrid cells. 184 9

Bradykinin triggered intracellular Ca mobilizations and ionic conductance changes were studied in the neuroblastoma x glioma hybrid cell line NG108-15 using Ca-sensitive fluorescent indicator fura-2 under patch pipette whole cell voltage clamp condition. The time course of outward current induced by bradykinin was closely related to the time-course of [Ca2+]i change. Following application of bradykinin, [Ca2+]i increased transiently and then decreased below the basal level before bradykinin application. The inward currents activated by step-depolarization were suppressed after bradykinin application, but the time-course of the suppression did not go in parallel with the [Ca2+]i changes: the suppression started before the [Ca2+]i change emerged and outlasted the phase of [Ca2+]i increase. Both transient type and long-lasting type Ca current were suppressed by bradykinin. [Ca2+]i increase induced by high potassium depolarization was suppressed by bradykinin. Pertussis toxin did not affect the Ca transient nor the suppression of Ca channel induced by bradykinin. Our results suggest that the modifications of ionic channels by bradykinin could be through the other mechanisms than the well established activation of the G-protein leading to the IP3 mechanisms and that the bradykinin receptor might couple with the pertussis toxin-insensitive G protein which regulates the calcium channels.
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PMID:Mobilization of intracellular Ca2+ and suppression of inward currents in a neuronal hybrid cell line triggered by bradykinin. 196 37

Nine distinct alpha subunits of guanine nucleotide binding proteins (G-proteins) have now been identified by cDNA cloning. Each of these functions to allow transduction of information between hormone-activated receptors in the plasma membrane and effector systems which are either ion channels or enzymes which regulate the intracellular concentration of second messengers. As the individual G-proteins are highly similar in primary sequence, it is pertinent to ask what degree of specificity of interaction each of these display with the various receptors and effector systems. Specificity of tissue location defines that the rod and cone transducins (TD1 and TD2, respectively) act as the coupling proteins between rhodopsin and cone opsins and their cyclic nucleotide phosphodiesterase effectors and that G(olf) is the G-protein which tranduces signals from odorant receptors to adenylate cyclase in olfactory sensory neurones. However, many of the other identified G-proteins are co-expressed in a single tissue or cell. Whilst sensitivity to ADP-ribosylation catalysed by bacterial toxins from Bordetella pertussis and Vibrio cholerae has allowed a further subdivision of the G-protein family, this approach is limited as these toxins have multiple G-protein substrates. As the extreme C-terminus of the alpha subunit of each G-protein appears to be a key domain for the interactions of receptors and G-proteins we have generated a series of G-protein-selective antipeptide antisera against this region and then have used these antisera to attempt to interfere with receptor-G-protein coupling. With this approach we have been able to demonstrate that a delta opioid receptor-mediated inhibition of adenylate cyclase in neuroblastoma x glioma, NG108-15, cell membranes is transduced specifically by Gi2 and in the same cell that alpha 2 adrenergic inhibition of Ca2+ currents is transduced by Go. Similar strategies are likely to be of universal significance, for example in the identification of the G-protein (Gp) which regulates the receptor-mediated activation of phosphoinositidase C. Methods to allow pharmacological manipulation of the levels of expression of various G-proteins in the membranes of cells are also discussed. Such approaches are also likely to assist in the identification of G-proteins of defined functions.
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PMID:The role and specificity of guanine nucleotide binding proteins in receptor-effector coupling. 196 33

Acetylcholine (ACh) can inhibit calcium currents (ICa) in nerve cells by activating muscarinic ACh receptors (mAChR). There are several different genetic subtypes of mAChR. It is not known which subtype(s) are responsible for ICa inhibition. To resolve this issue, we measured ICa inhibition by ACh with patch-clamp recording, by using Ba2+ as charge carrier, in clones of NG108-15 neuroblastoma x glioma hybrid cells transfected with DNA for mAChRI, II, III and IV. Control (non-transfected) cells showed a mean maximum inhibition of peak ICa of 12.8 +/- 1.8% (n = 36) at 1 mM ACh. No consistent increase in inhibition was detected in vector-transfected cells, or in cells transformed to express mAChRI or mAChRIII. In contrast, inhibition was significantly increased in clones transformed to express mAChRII or mAChRIV. Inhibition was not correlated with the number of muscarinic receptors as determined by 3H-quinuclidinyl benzilate binding. Inhibition in both control and transfected cells was prevented by pretreatment with pertussis toxin (PTx). Inhibition persisted in the presence of extracellular or intracellular dibutyryl cyclic AMP, and hence is not because of inhibition of adenylate cyclase. We conclude that the inhibition of neuronal ICa is mediated preferentially by mAChRII and mAChRIV, via a PTx-sensitive GTP-binding protein.
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PMID:Selective coupling of different muscarinic acetylcholine receptors to neuronal calcium currents in DNA-transfected cells. 198 Jul 42

Rat glioma C6 BU1 cells were treated in tissue culture with cholera toxin. Incubation of membranes derived from these cells with fresh cholera toxin and [32P]NAD+ failed to promote incorporation of radioactivity into polypeptides corresponding to forms of Gs alpha. This is generally assumed to reflect prior ADP ribosylation of these polypeptides in vivo using endogenous NAD+ as substrate. However, immunological studies with anti-peptide antisera which identify all forms of Gs alpha demonstrated that concentrations of this polypeptide were now substantially reduced in the membranes. This effect was specific for Gs alpha as neither the alpha-subunits of the pertussis toxin-sensitive G-proteins Gi2 and Gi3, nor the beta subunit common to the various G-proteins were lost in parallel. Pertussis toxin-catalysed ADP ribosylation did not cause the downregulation of Gs alpha nor of the alpha-subunits of Gi2 or Gi3 although it did cause ADP ribosylation of the entire complement of both Gi2 and Gi3 in the membranes. Despite the reduction in levels of immunoreactive Gs alpha from the membranes of cholera toxin-treated cells, no alterations in levels of mRNA corresponding to this G-protein were noted.
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PMID:Chronic exposure of rat glioma C6 cells to cholera toxin induces loss of the alpha-subunit of the stimulatory guanine nucleotide-binding protein (Gs). 211 2

Exposure of neuroblastoma x glioma hybrid (NG108-15) cells to low concentrations of cholera toxin produced a stimulation of both basal and forskolin-amplified adenylate cyclase activity in membranes prepared from these cells. Higher concentrations of cholera-toxin reversed this effect. Mn2+ activation of adenylate cyclase indicated that this effect was not due to a modification of the intrinsic activity of this enzyme. Cholera toxin was demonstrated to produce a concentration and time-dependent loss of GS alpha from membranes of these cells. Loss of GS alpha from membranes of these cells was preceded by its ADP-ribosylation. The effects of cholera toxin were specific for GS alpha, as no alterations in levels of the pertussis toxin-sensitive G-proteins Gi2, Gi3 and Go, were noted in parallel. Equally, no alteration in levels of G-protein beta-subunit were produced by the cholera toxin treatment. These experiments demonstrate that cholera toxin-catalysed ADP-ribosylation does not simply maintain an activated population of GS at the plasma membrane and that alterations in levels of GS at the plasma membrane can modify adenylate cyclase activity.
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PMID:Biphasic regulation of adenylate cyclase by cholera toxin in neuroblastoma x glioma hybrid cells is due to the activation and subsequent loss of the alpha subunit of the stimulatory GTP binding protein (GS). 211 4

Many cells develop an adaptive increase in the capacity of adenylate cyclase to synthesize cyclic AMP (cAMP) after prolonged (hours or days) exposure to drugs which initially inhibit enzyme activity. Recent evidence suggests that adaptive increases in cAMP responses can be induced within minutes by inhibitory drugs. We have investigated the kinetics for induction and decay of this phenomenon in mouse neuroblastoma x rat glioma hybrid cells. The muscarinic cholinergic agonist carbachol induced an increase in prostaglandin E1-stimulated cAMP accumulation within 2 min of pretreatment with carbachol; the increase was 70 to 100% above control values after exposure to carbachol for 30 min. Enhanced cAMP responsiveness decayed with a half-life of about 8 min after removal of carbachol. Pretreatment with carbachol for 30 hr led to an enhanced cAMP response which decayed in two components, a rapid component and an additional, more stable component which persisted for at least 2 hr after withdrawal of carbachol. Pertussis toxin prevented these effects of carbachol. Prevention of carbachol-induced inhibition of cAMP accumulation below basal concentrations with a phosphodiesterase inhibitor did not prevent the ability of carbachol to acutely induce augmented prostaglandin E1-stimulated cAMP accumulation. Mouse neuroblastoma x rat glioma hybrid cells exhibit an enhanced cAMP response after both acute and chronic exposure to a muscarinic cholinergic agonist although these processes decay with different time courses. The signal for this acutely induced adaptation does not appear to be the decrease in cellular cAMP concentration resulting from inhibition of adenylate cyclase but does require a pertussis toxin-sensitive substrate.
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PMID:Activation of muscarinic cholinergic receptors in mouse neuroblastoma x rat glioma hybrid cells: rapid induction of enhanced capacity of prostaglandin E1 receptors to stimulate cyclic AMP accumulation. 215 56

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

Effects of endothelin (ET) homologues (ET-1, 2, 3 and sarafotoxin S6b) and its precursor (big ET-1) on phosphoinositide (PI) turnover were compared in neurally-related cell cultures. All ET-related peptides induced a robust increase of PI turnover in cerebellar astrocytes, C6-glioma and cerebellar granule cells. The rank order of potency in stimulating PI turnover was ET-1 = ET-2 greater than or equal to S6b greater than ET-3 greater than big ET-1 for granule cell neurons, while it was ET-1 greater than or equal to ET-2 greater than or equal to S6b greater than big ET-1 greater than ET-3 for astrocytes and C6-glioma cells. Short-term pretreatment with phorbol dibutyrate (PDBu) attenuated the ET-1-induced PI response in all three types of cultures. However, long-term pretreatment with PDBu attenuated the response in granule cells and C6-gliomas, but enhanced responses to ET and ATP in astrocytes. Long-term exposure of cells to pertussis toxin (PTX) attenuated the PI response to ET in astrocytes and C6-gliomas, but not in granule cells. Thus, phospholipase C-coupled ET receptors are expressed in both neurons and glial cells, but they differ considerably in their pharmacological selectivity and signal transduction mechanisms in stimulating PI hydrolysis.
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PMID:Comparative studies of phosphoinositide hydrolysis induced by endothelin-related peptides in cultured cerebellar astrocytes, C6-glioma and cerebellar granule cells. 215 94


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