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)

In neutrophils and several other phagocytic cell types, a pertussis- and cholera-toxin-sensitive form of the guanine-nucleotide-binding protein (G-protein) Gp couples receptors for N-formylmethionine-containing chemotactic peptides to stimulation of phospholipase C. Using membranes of myeloid differentiated HL 60 cells, we have examined the role of Mg2+ and guanine nucleotides in regulating (a) the interaction of the formyl-peptide receptor with the chemotactic agonist N-formylmethionyl-leucyl-phenylalanine (fMet-Leu-Phe) and (b) the receptor-mediated activation of Gp. Mg2+ markedly enhanced the number of receptors with high affinity for the radiolabeled oligopeptide fMet-Leu-[3H]Phe. At the same time, Mg2+ largely increased the potency of guanosine-5'-(3-O-thio)triphosphate, but not of GDP or guanosine-5'-(2-O-thio)diphosphate, to inhibit binding of the peptide. Comparison of the potency of Mg2+ in eliciting these two effects and analysis of the specificities of the relevant divalent cation sites revealed that Mg2+ interacts with at least two independent sites on the receptor-Gp complex. One site is specific for Mg2+ and exhibits affinity in the micromolar range, the other site interacts with millimolar concentrations of several divalent cations in a non-selective fashion. It is suggested that the former site is located on Gp and that interaction of Mg2+ with this site is necessary for the receptor-mediated G-protein activation, whereas interaction of divalent cations with the latter site is necessary for high affinity agonist binding. The regulation of the formyl-peptide receptor binding properties by guanine nucleotides is independent of Gp activation, since inhibition of peptide binding is achieved by addition of both guanine nucleoside diphosphates and triphosphates and is readily seen both in the presence and in the absence of Mg2+. The latter finding, together with the observation that, at micromolar concentrations of Mg2+, high-affinity GTPase activity is stimulated by fMet-Leu-Phe primarily via low affinity receptors, suggests that, contrary to widely held opinions, (a) divalent cations are not required for a functional receptor--G-protein interaction and (b) high-affinity agonist binding is not a prerequisite for the receptor-mediated activation of the G-protein.
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PMID:Dual Mg2+ control of formyl-peptide-receptor--G-protein interaction in HL 60 cells. Evidence that the low-agonist-affinity receptor interacts with and activates the G-protein. 250 2

Electropermeabilized human neutrophils were used to investigate the possible role of G-proteins in the respiratory burst elicited by concanavalin A (Con A). The Con A-induced activation of the NADPH oxidase was not inhibited by either pertussis toxin or cholera toxin. However, the burst was inhibited by GDP and GDP beta S providing evidence for the involvement of a G-protein(s). O2 consumption in Con A-stimulated cells was dependent on both ATP and Mg2+. ATP could be substituted by ATP gamma S but not by the non-hydrolyzable analog AMP-PNP, suggesting involvement of phosphotransferase reactions. It is concluded that at least two distinct types of G-proteins are capable of inducing the respiratory burst in neutrophils and that accumulation of phosphorylated intermediates may be essential for activation of the respiratory burst by the lectin.
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PMID:Concanavalin A stimulation of O2 consumption in electropermeabilized neutrophils via a pertussis toxin-insensitive G protein. 250 97

A1 adenosine receptors and guanine nucleotide-binding proteins (G proteins) solubilized with 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate have been co-purified from bovine cerebral cortex. A portion of solubilized receptors which displays high affinity GTP-sensitive agonist binding (40-50%) adheres tightly to agonist affinity columns composed of N6-aminobenzyladenosine-agarose. A1 adenosine receptors and G proteins are rapidly and selectively coeluted from agonist columns by the addition of 8-p-sulfophenyltheophylline, but only in combination with Mg2+-GTP or N-ethylmaleimide, agents which lower the affinity of receptors for agonists. Purified receptors and G protein alpha-subunits can be detected with the potent A1-selective antagonist radioligand, [125I]3-(4-amino-3-iodo)phenethyl-1-propyl-8-cyclopentylxanthine (125I-BW-A844U) and [35S]guanosine 5'-3-O-(thio)triphosphate [( 35S]GTP gamma S), respectively. Pretreatment of solubilized receptors with 0.1 mM N-ethylmaleimide or 0.1 mM R-phenylisopropyladenosine abolishes adsorption of receptors and G proteins to affinity columns. Following removal of 8-p-sulfophenyltheophylline and GTP, purified receptors bind agonists (2 sites) and antagonists (1 site) with affinities similar to crude soluble receptors and typical of A1 receptors. Some receptors may be denatured as a result of purification since only 23% of the radioligand binding sites which adhere to the affinity column can be detected in the eluate. The Bmax of purified receptors, 820 +/- 100 pmol/mg protein (n = 3) is 1800-fold higher than crude soluble receptors. The specific activity of [35S]GTP gamma S binding sites in affinity column eluates is 4640 pmol/mg protein. Assuming a 1:1 stoichiometry, this specific activity indicates that receptor-G protein complexes are greater than 50% pure following affinity chromatography. The photoaffinity labeled purified receptor was identified by polyacrylamide gel electrophoresis as a single band with a molecular mass of 35 kDa which when deglycosylated undergoes a characteristic shift in molecular mass to a sharp band at 32 kDa. In addition to the receptor, silver staining revealed polypeptides with molecular masses of 39 and 41 kDa, which are ADP-ribosylated by pertussis toxin, and 36 kDa corresponding to G protein beta-subunits.
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PMID:Co-purification of A1 adenosine receptors and guanine nucleotide-binding proteins from bovine brain. 250 12

Incubation of rabbit platelets with thrombin resulted in rapid accumulations of inositol trisphosphate (IP3) in [3H]inositol-labeled platelets, increases of [3H]arachidonic acid [( 3H]AA) release, and [3H]serotonin secretion from the platelets prelabeled with these labeled compounds. The experiments using phospholipase A2 or C inhibitor suggested that not only phospholipase C but also phospholipase A2 activity plays an important role in serotonin secretion. We then studied the regulatory mechanisms of phospholipase A2 activity. Guanosine 5'-(3-O-thio)triphosphate (GTP gamma S), guanyl-5'-(beta,gamma-iminio)triphosphate), or AlF4- caused a significant liberation of AA in digitonin-permeabilized platelets but not in intact platelets. Thrombin-stimulated AA release was not observed in permeabilized platelets, whereas thrombin acted synergistically with GTP or GTP analogs to stimulate AA release. GTP analog-stimulated AA release was inhibited by guanosine 5'-(2-O-thio)diphosphate) and was also inhibited by decreased Mg2+ concentrations. Thrombin-induced, GTP-dependent AA release, but not IP3 formation, was diminished by 100 ng/ml of pertussis toxin, associated with ADP-ribosylation of membrane 41-kDa protein(s). Thrombin-stimulated AA release from intact platelets and GTP gamma S-stimulated release from permeabilized platelets were both markedly dependent on Ca2+. However, Ca2+ addition could not enhance AA release without GTP gamma S even when Ca2+ was increased up to 10(-4) M in permeabilized platelets. The results show that thrombin-stimulated AA release from rabbit platelets is mainly mediated by phospholipase A2 activity, not by phospholipase C activity, and that Ca2+ is an important factor to the activation of phospholipase A2 but is not the sole factor to the regulation. GTP-binding protein(s) is involved in receptor-mediated activation of phospholipase A2.
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PMID:Pertussis toxin-sensitive GTP-binding proteins may regulate phospholipase A2 in response to thrombin in rabbit platelets. 250 76

Formyl peptide receptors on differentiated HL-60 cells were desensitized to formyl-methionyl-leucyl-phenylalanine (FMLP)-stimulated superoxide production in a concentration-dependent manner, similar to that previously described for neutrophils. Membranes isolated from desensitized (DM) and normal (NM) HL-60 cells were used to compare receptor numbers and affinities between NM and DM and compare the ability of receptors on DM and NM to interact normally with their guanine nucleotide regulatory proteins (G proteins). Exposure of differentiated HL-60 cells to 10(-7) M FMLP for 10 min before membranes were isolated resulted in a 75% reduction in receptor number, without alteration of dissociation constants. The remaining receptors on DM did not interact normally with their G proteins, as demonstrated by 1) the failure of guanine nucleotides to alter FMLP binding, 2) the inability of FMLP to stimulate guanosine-5'-O-(3-thiotriphosphate) binding, and 3) the attenuation of FMLP stimulation of GTPase activity. These results were not due to a reduction in G protein content of DM, as determined by Western blot analysis with an antibody that recognized alpha 40 and by pertussis toxin-catalyzed [32P]ADP-ribosylation of membrane G proteins in NM and DM. The failure of FMLP receptors on DM to interact with their G proteins was not due to differences in receptor number between NM and DM. Increasing the Mg2+ concentration partially restored the FMLP receptor-G protein interaction in DM. We conclude that desensitization of the formyl peptide receptor is associated with both loss of membrane receptors and a functional alteration in the receptor-G protein interaction, which can be partially reversed by increased concentrations of Mg2+.
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PMID:Desensitization uncouples the formyl peptide receptor-guanine nucleotide-binding protein interaction in HL60 cells. 250 29

A 40-kDa protein, in addition to the alpha-subunits of Gs (a GTP-binding protein involved in adenylate cyclase stimulation), was [32P]ADP-ribosylated by cholera toxin (CT) in the membranes of neutrophil-like HL-60 cells, only if formyl Met-Leu-Phe (fMLP) was added to the ADP-ribosylation mixture. The 40-kDa protein proved to be the alpha-subunit of Gi serving as the substrate of pertussis toxin, islet-activating protein (IAP). No radioactivity was incorporated into this protein in membranes isolated from HL-60 cells that had been exposed to IAP. Gi-alpha purified from bovine brain and reconstituted into IAP-treated cell membranes was ADP-ribosylated by CT plus fMLP. Gi-alpha was ADP-ribosylated by IAP, but not by CT plus fMLP, in membranes from cells that had been pretreated with CT plus fMLP. When membrane Gi-alpha [32P]ADP-ribosylated by CT plus fMLP or IAP was digested with trypsin, the radiolabeled fragments arising from the two proteins were different from each other. These results suggest that CT ADP-ribosylates Gi-alpha in intact cells when coupled fMLP receptors are stimulated and that the sites modified by two toxins are not identical. CT-induced and fMLP-supported ADP-ribosylation of Gi-alpha was favored by Mg2+ and allow concentrations of GTP or its analogues but suppressed by GDP. The ADP-ribosylation did not occur at all, even in the presence of ADP-ribosylation factor that supported CT-induced modification of Gs, in phospholipid vesicles containing crude membrane extract in which Gi was functionally coupled to stimulated fMLP receptors. Thus, Gi activated via coupled receptors is the real substrate of CT-catalyzed ADP-ribosylation. This reaction may depend on additional factor(s) that are too labile to survive the process of membrane extraction.
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PMID:Chemotactic peptide receptor-supported ADP-ribosylation of a pertussis toxin substrate GTP-binding protein by cholera toxin in neutrophil-type HL-60 cells. 251 94

Receptor-regulated binding of the labeled GTP analog, guanosine 5'-O-(3-thiotriphosphate) ([35S]GTP[S]), to guanine-nucleotide-binding proteins (G-proteins) was studied in porcine atrial membranes enriched in muscarinic acetylcholine (mACh) receptors. Binding of [35S]GTP[S] to the membranes was not or only slightly affected by the cholinergic agonist, carbachol, unless a second nucleotide was simultaneously present in the binding assay. This additional nucleotide requirement was best fulfilled by GDP, being maximally effective at 0.1-1 microM. In contrast, the GDP analog, guanosine 5'-O-(2-thiodiphosphate), could not replace GDP in promoting carbachol-induced increase in [35S]GTP[S] binding. In addition to GDP, agonist-induced stimulation of [35S]GTP[S] binding to porcine atrial membranes required the presence of Mg2+, being half-maximally and maximally effective at about 30 microM and 300 microM, respectively. Addition of NaCl, which decreased control binding measured in the presence of GDP alone, had no effect on the maximal extent of agonist-stimulated binding, but reduced the potency of carbachol in stimulating [35S]GTP[S] binding. Under optimal conditions, carbachol increased the binding of [35S]GTP[S] without apparent lag phase up to about 2.5-fold, with half-maximal and maximal increase being observed at 5-10 microM and 100 microM, respectively. The agonist-induced stimulation was competitively antagonized by the mACh receptor antagonist, atropine. The number of GTP[S] binding sites under receptor control was two--three-fold higher than the number of mACh receptors in the porcine atrial membranes used. Pretreatment of the membranes with pertussis toxin under conditions leading to 95% ADP-ribosylation of the toxin-sensitive G-protein alpha-subunits markedly reduced agonist-stimulated [35S]GTP[S] binding, with, however, about 30% stimulation still remaining. The data presented indicate that agonist-stimulated binding of [35S]GTP[S] to G-proteins can be a sensitive assay for measuring receptor-regulated G-protein activation in native membranes and, furthermore, suggest that one agonist-activated mACh receptor can activate two or three cardiac G-proteins, being mainly members of the pertussis-toxin-sensitive G-proteins.
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PMID:Muscarinic acetylcholine receptor-stimulated binding of guanosine 5'-O-(3-thiotriphosphate) to guanine-nucleotide-binding proteins in cardiac membranes. 251 98

The periaqueductal gray (PAG) region of the midbrain has been implicated in both stimulation-produced and opioid-induced analgesia. High affinity mu-selective opioid binding sites presumably associated with mu-type opioid receptors have been detected in rat PAG-enriched P2 membrane. In the present study the signal transduction mechanism of mu-type opioid receptors in the PAG was examined utilizing both in vitro radioligand binding and GTPase assays. The non-hydrolyzable guanine triphosphate (GTP) analog guanyl-5'-yl beta-gamma-imidodiphosphate (GppNHp) inhibited specific high affinity [3H][D-Ala2,N-MethylPhe4,Glyol5]enkephalin (DAGO) binding in rat PAG-enriched P2 membrane in a dose-dependent manner. DAGO stimulated total GTPase activity in rat PAG-enriched P2 membrane in a saturable, dose-dependent, ligand-selective, stereoselective, and naloxone-reversible manner. This DAGO stimulation of total GTPase activity was also dependent on Na+ and Mg2+, and was abolished by pertussis toxin pretreatment of the membrane. Overall these data suggest that mu-type opioid receptors in the PAG are coupled to guanine nucleotide binding proteins (G proteins).
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PMID:Mu-type opioid receptors in rat periaqueductal gray-enriched P2 membrane are coupled to guanine nucleotide binding proteins. 253 74

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

Both NaCl and NaF promoted PGE2 binding to epididymal adipocyte membranes by apparent increase in the binding affinity. In order to distinguish between the effect of fluoride and the 'salt effect' of sodium on PGE2 binding, the effects of Mg2+ and guanyl nucleotides on PGE2 binding in the presence of NaCl or NaF were compared. Mg2+ decreased PGE2 binding; high NaF concentration abolished this inhibition, while increased NaCl concentrations did not affect the Mg2+ inhibition. In the presence of Mg2+ the effects of NaCl and NaF were additive. The enhancement of PGE2 binding by fluoride, unlike sodium, was dependent on the presence of Mg2+. Incubation of the membranes with GDP beta S, Gpp(NH)p, GTP or GTP gamma S increased PGE2 binding. Gradual increase in NaF concentrations in the presence of guanyl nucleotides resulted in stimulation of PGE2 binding at low NaF concentrations and inhibition of PGE2 binding at high NaF concentrations. No changes in the stimulatory action of NaCl on PGE2 binding were observed in the simultaneous presence of NaCl and guanyl nucleotides. A biphasic effect on PGE2 binding was observed with a wide concentration range of guanyl nucleotides. Treatment of the isolated membranes with cholera or pertussis toxins stimulated the adenylyl cyclase activity of the membranes, but failed to influence PGE2 binding. The implications of these findings are discussed.
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PMID:Biphasic effect of sodium fluoride and guanyl nucleotides on binding to prostaglandin E2 receptors in rat epididymal adipocyte membranes. 256 48


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