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)

Exposure to IFN-gamma increases the respiratory burst of polymorphonuclear leukocytes stimulated by the chemoattractant FMLP. However, the mechanism by which IFN-gamma alters the response to FMLP is unclear. We addressed the hypothesis that IFN-gamma enhances the response to FMLP by regulating the expression of elements of the formyl peptide receptor transmembrane-signaling pathway. HL-60 granulocytes were used as a model of FMLP transmembrane signaling. Formyl peptide receptor number and affinity were studied in isolated plasma membranes prepared from control HL-60 cells (CM) and cells exposed to IFN-gamma 100 U/ml for 24 h (IFN-M). Formyl peptide receptors were significantly increased on IFN-M compared with CM (1473 +/- 300 vs 3209 +/- 924). FMLP stimulates increased guanine nucleotide-binding protein (G protein) activation in IFN-M as evidenced by enhanced guanosine 5'-[gamma-thio]triphosphate binding and GTPase activity. Gi sub-unit content was increased in IFN-M as measured by pertussis toxin-catalyzed ADP-ribosylation and immunoblotting with antibodies against alpha i2 and alpha i3 G protein subunits. Guanosine 5'-[gamma-thio]triphosphate equilibrium binding demonstrated an increased number of G proteins coupled to formyl peptide receptors on IFN-M. We conclude that IFN-gamma increases expression of both formyl peptide receptors and G proteins coupled to these receptors, thereby enhancing FMLP-stimulated transmembrane signaling. Regulation of transmembrane signaling element expression may be a significant mechanism by which IFN-gamma regulates cellular functions.
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PMID:IFN-gamma enhances expression of formyl peptide receptors and guanine nucleotide-binding proteins by HL-60 granulocytes. 156 Feb 4

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

In membranes of myeloid differentiated HL-60 cells, the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine stimulates phospholipase C via a pertussis toxin-sensitive G-protein but does not inhibit adenylyl cyclase. In these membranes, the chemotactic peptide markedly stimulates the cholera toxin-dependent [32P]ADP-ribosylation of two proteins with approximate molecular masses of 40 and 41 kDa, respectively. The radiolabeled proteins comigrate on sodium dodecyl sulfate-polyacrylamide gels with the two pertussis toxin substrates present in HL-60 membranes, alpha i2 and alpha i3. The effect of the chemotactic peptide is blocked by treatment of intact HL-60 cells with pertussis toxin. Peptide mapping studies using Staphylococcus aureus protease V8 reveal that the two radiolabeled proteins are structurally distinct. Thus, the agonist-activated formyl peptide receptor functionally interacts with two distinct pertussis toxin substrates, most likely with Gi2 and Gi3. As the third Gi protein, Gi1, appears to be absent from both HL-60 cells and from systems that clearly reveal hormonal inhibition of adenylyl cyclase, the results strongly suggest that primary structure alone does not suffice to determine which effector mechanism is regulated by a given Gi-protein.
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PMID:Two distinct Gi-proteins mediate formyl peptide receptor signal transduction in human leukemia (HL-60) cells. 251 19

In neutrophils and several other phagocytes, a pertussis and cholera toxin-sensitive guanine nucleotide-binding protein (G-protein) couples the receptors for formyl methionine-containing chemotactic peptides to stimulation of phospholipase C. We used membranes of myeloid-differentiated HL 60 cells to study the role of Na+ in regulating both the interaction of the formyl peptide receptor with the chemotactic agonist, N-formyl-methionyl-leucyl-phenylalanine (FMLP), and the receptor-mediated activation of the G-protein. Monovalent cations (Na+ greater than Li+ greater than K+ greater than choline+) markedly inhibited the binding of the radiolabeled oligopeptide [3H]FMLP by specifically reducing the number of receptors in the high-affinity state. Half-maximal and maximal inhibition of peptide binding were seen at cation concentrations of approximately 20 and 200 mM, respectively. Inhibition of peptide binding by Na+ was observed in the presence and absence of divalent cations and was strictly additive to inhibition by the poorly hydrolyzable GTP analogue, guanosine-5'-O-(3-thiotriphosphate), or to ADP ribosylation of G-proteins by pertussis toxin. The inhibitory effect of Na+ on peptide binding coincided with a marked reduction of the potency of FMLP to stimulate a high-affinity GTPase. In contrast, the degree of FMLP-stimulated GTPase activity was markedly enhanced in the presence of Na+. This was largely due to the fact that Na+ reduced the agonist-independent basal GTPase activity in the same way but less so than pertussis toxin treatment. The results show that monovalent cations, Na+ in particular, regulate the interaction of the formyl peptide receptor with both the chemotactic agonist and the G-protein by acting on a single site, possibly located on the receptor itself. The observation that basal GTPase activity is markedly reduced by both Na+ and pertussis toxin treatment also suggests (a) that G-proteins interact with and are activated by receptors even in the absence of agonists and (b) that Na+ uncouples unoccupied receptors from G-protein interaction and activation.
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PMID:Na+ regulation of formyl peptide receptor-mediated signal transduction in HL 60 cells. Evidence that the cation prevents activation of the G-protein by unoccupied receptors. 251 70

We recently showed that phosphatidylinositol trisphosphate (PIP3) was present in a unique lipid fraction generated in neutrophils during activation. Here, we demonstrate that the band containing this fraction isolated from thin layer chromatography consists primarily of PIP3 and that only small amounts of radiolabeled PIP3 exist prior to activation. In addition, high performance liquid chromatography of deacylated phospholipids from stimulated cells reveals an increase in a fraction eluting ahead of glycerophosphoinositol 4,5-P2. After removal of the glycerol we found that it coeluted with inositol 1,3,4-P3 when resubjected to high performance liquid chromatography. Thus, we have detected a second, novel form of phosphatidylinositol bisphosphate in activated neutrophils, PI-(3,4)P2. The elevation of PIP3 through the formyl peptide receptor is blocked by pretreatment with pertussis toxin, implicating mediation of the increase in PIP3 by a guanosine triphosphate-binding (G) protein. The rise in PIP3 is not secondary to calcium elevation. Buffering the rise in intracellular calcium did not diminish the increase in PIP3. The elevation of PIP3 appears to occur during activation with physiological agonists, its level varying with the degree of activation. Leukotriene B4, which elicits many of the same responses as stimulation of the formyl peptide receptor but with minimal oxidant production, stimulates a much attenuated rise in PIP3. Isoproterenol, which inhibits oxidant production also reduces the rise in PIP3. Hence formation of PI(3,4)P2 and PIP3 (presumed to be PI(3,4,5)P3) correlates closely with the early events of neutrophil activation.
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PMID:Transient increase in phosphatidylinositol 3,4-bisphosphate and phosphatidylinositol trisphosphate during activation of human neutrophils. 254 71

Neomycin, an inositol-phospholipid-binding aminoglycoside antibiotic, is known to interfere with signal transduction mechanisms involving phospholipase C as effector enzyme. In this study, we report that neomycin can also markedly influence agonist binding of G-protein-coupled receptors. In membranes of differentiated human leukemia cells (HL 60 cells), neomycin (0.1-10 mM) was found to induce high-affinity binding of the chemotactic tripeptide, N-formyl-methionylleucylphenylalanine (fMet-Leu-Phe), to its receptor sites in a manner similar to magnesium. Gentamycin and streptomycin, two other aminoglycoside antibiotics, were as potent and as effective as neomycin or magnesium in inducing high-affinity agonist receptor binding. Pretreatment of the cells with pertussis toxin reduced the effects of magnesium and neomycin on agonist receptor binding likewise. In contrast, magnesium but not neomycin largely enhanced the potency of guanine nucleotides, particularly of GTP and its analog, guanosine-5'-O-(3-thiotriphosphate), to reduce fMet-Leu-Phe receptor binding, while maximal inhibition of agonist receptor binding by guanine nucleotides was identical with magnesium and neomycin. Furthermore, neomycin could not replace magnesium in providing stimulation of HL 60 membrane high-affinity GTPase by fMet-Leu-Phe. In close agreement to these findings on the pertussis-toxin-sensitive Gi-protein-coupled formyl peptide receptors, neomycin in a manner similar to magnesium induced high-affinity agonist binding of Gs-protein-coupled beta-adrenoceptors. Similar to formyl peptide receptor binding, high-affinity binding of isoproterenol to beta-adrenoceptors in guinea pig lung membranes induced by magnesium and neomycin was inhibited by the GTP analog, guanosine-5'-O-(3-thiotriphosphate), to a similar maximal extent but with an about 100-fold higher potency in the presence of magnesium than in the presence of neomycin. The data presented thus indicate that neomycin and other aminoglycoside antibiotics can mimic the action of magnesium (or other divalent cations) in inducing high-affinity agonist binding of Gi- and Gs-protein-coupled receptors, but not in inducing subsequent G-protein activation by guanosine triphosphates. The data, furthermore, suggest that neomycin by this selective action will be a powerful tool to dissect the multiple sites of magnesium's action in the agonist receptor-G-protein interaction.
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PMID:Neomycin induces high-affinity agonist binding of G-protein-coupled receptors. 255 74

Three distinct states of the formyl peptide receptor have been described. These are: 1) the ternary complex of ligand, receptor, and G protein (LRG); 2) the rapidly dissociating occupied receptor (ligand-receptor complex (LR]; and 3) a desensitized slowly dissociating guanine nucleotide-insensitive receptor (desensitized ligand-receptor complex ("LRX"]. During cell activation there is a rapid interconversion among receptor states from a rapidly dissociating form (t 1/2 approximately 10 s) to a slowly dissociating form (t 1/2 greater than or equal to 2 min). Neither the dynamics of the states nor their interconversion is influenced by ribosylation of G protein in the presence of pertussis toxin. In contrast to ribosylation, treatment of cells with either 2-deoxyglucose or fluoride ion, both of which lead to a loss of adenine and guanine nucleotides, causes a time-dependent change in ligand dissociability. After short periods of treatment (5-15 min) rapid dissociation is observed; after longer times (30-60 min), slow dissociation is once again detected. When intact cells are first ribosylated and then energy-depleted, only a rapidly dissociating receptor is detected. These results are discussed in terms of a model with the following elements: 1) intact cell dynamics during cell activation are dominated by an energy-dependent interconversion from LR to LRX; 2) under activation conditions, LRG appears and disappears too rapidly to be detected; 3) in cells depleted of energy and guanine nucleotide, LRG is stabilized; 4) in cells both ribosylated and depleted of energy, LR is stabilized.
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PMID:Three states for the formyl peptide receptor on intact cells. 272 82

We have characterized the GTPase activity of the Ni-like guanine-nucleotide-binding regulatory protein in rabbit neutrophil plasma membranes. The low Km (3.64 +/- 0.87 X 10(-7) M) GTPase copurified with the formyl peptide receptor in the plasma membrane fraction obtained by discontinuous sucrose density gradient centrifugation. The Vmax (23.9 +/- 2.91 pmol/mg/min) and Km of the unstimulated enzyme were similar to those reported for Ni in other cell types. The activity of the unstimulated enzyme was both magnesium and sodium dependent and linear over the first 4 min of the assay. The chemoattractants, formyl-methionyl-leucyl-phenylalanine (fMLP), C5a, and leukotriene B4 (LTB4) stimulated the GTPase in purified neutrophil plasma membrane preparations, whereas other secretagogues, such as A23187 and PMA, were without effect. Lineweaver-Burk analysis showed an fMLP-induced increase in Vmax (31.94 +/- 4.80 pmol/mg/min) (33.1 +/- 9.5%) but not in Km. The dose-response curve for fMLP stimulation showed an ED50 of 4.1 +/- 1.0 X 10(-8) M and an overall 22.2 +/- 3.1% maximal stimulation. C5a (30 micrograms/ml) increased the activity of the GTPase 21.3 +/- 5.7% and 10(-7) M LTB4 produced a 32.2 +/- 5.4% increase. Activated pertussis toxin treatment of neutrophil plasma membranes inhibited by 72.5 +/- 14.3% the stimulation of GTPase activity induced by fMLP; however, activated cholera toxin had no effect on the inhibition of fMLP stimulation, suggesting a direct role for an Ni-like protein in the coupling process. In contrast to the lack of inhibition of fMLP stimulation by activated cholera toxin treatment of plasma membranes, both pertussis toxin and to a lesser extent cholera toxin treatment reduced fMLP, C5a, and LTB4 stimulation of the GTPase in sonicates prepared from pretreated whole cells. Pertussis toxin inhibited fMLP stimulation of the GTPase by 75 +/- 7%, C5a stimulation was inhibited by 83 +/- 13%, and LTB4 stimulation was inhibited completely. Sonicates prepared from neutrophils treated similarly with cholera toxin showed a smaller inhibition of GTPase activity (50 +/- 4% and 14 +/- 9% for fMLP and LTB4, respectively) with the exception of C5a, where CT inhibition (81 +/- 32%) equaled pertussis toxin inhibition. Similarly, pertussis toxin completely inhibited the release of the granule enzyme N-acetyl-glucosaminidase by all three chemoattractants, whereas cholera toxin, except with C5a stimulation, had little or no effect.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Characterization of the plasma membrane bound GTPase from rabbit neutrophils. I. Evidence for an Ni-like protein coupled to the formyl peptide, C5a, and leukotriene B4 chemotaxis receptors. 301 82

The mass of sn-1,2-diacylglycerol in crude lipid extracts from differentiated HL-60 phagocytes was measured by quantitative conversion of the diacylglycerol to [32P]-labeled phosphatidic acid catalyzed by E. coli diacylglycerol kinase. The chemotactic peptide N-formyl-Met-Leu-Phe caused a time- and concentration-dependent increase in diacylglycerol that was maximal at 4 min. Diacylglycerol returned toward basal levels by 15 min. The basal level of diacylglycerol was 290 +/- 25 pmol/10(7) cells (n = 36). Maximally effective concentrations of N-formyl-Met-Leu-Phe and N-formyl-Nle-Leu-Phe-Nle-Tyr-Lys increased diacylglycerol to 176% +/- 16 of basal (n = 8) and 198% +/- 15 of basal (n = 4), respectively. t-Boc-Phe-Leu-Phe-Leu-Phe, a competitive antagonist of formyl peptide receptor function, competitively inhibited the N-formyl-Met-Leu-Phe-induced diacylglycerol increase. Pretreatment of the cells with pertussis toxin abolished the stimulated rise in diacylglycerol, whereas depletion of extracellular Ca2+ markedly inhibited the increase. The Ca2+ ionophore A23187 stimulated a large (450% of basal) and persistent (greater than 30 min) increase in diacylglycerol. These data suggest that agents which raise intracellular Ca2+ levels in differentiated HL-60 cells produce a prolonged increase in cellular diacylglycerol which may activate protein kinase C.
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PMID:Diacylglycerol mass measurements in stimulated HL-60 phagocytes. 310 Jun 40

Intact neutrophils appear to exhibit interconverting formyl peptide receptor states. The first may be active in transduction and has a dissociation half-time of less than 10 sec. The second appears to be inactive and has a dissociation half-time of approximately 2 min. Neutrophil signals and responses are transient following "pulse" stimulation (when the stimulus is presented and then rapidly removed). The responses decay to baseline following a latency period comparable to the lifetime of the activated receptor. These results are consistent with the notion of transient interconverting receptor states and are discussed in terms of the biochemistry and amplification of the cell activation pathways. We examined the effect of guanine nucleotides on ligand-receptor dynamics at 37 degrees C in neutrophils permeabilized with digitonin, using continuous fluorometric measurements. The permeabilized cells exhibit a single class of slowly-dissociating receptor with a half-time similar to the inactive state. When guanine nucleotide is added, the receptors dissociate with a half-time similar to the first state. The effect of guanine nucleotide is inhibited by Ca++ concentrations above 10 microM. When receptors in permeabilized cells are ADP-ribosylated in the presence of pertussis toxin, the rapidly dissociating state is detected. These results suggest that the dynamics of ligand-receptor interaction under physiological conditions are controlled by a pertussis-toxin-sensitive guanine-nucleotide-binding protein. Guanine nucleotide regulates interconverting states of the formyl peptide receptor and mimics the dynamic states of the receptor observed in the intact cell during stimulation. A model which accounts for these data is described.
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PMID:Ligand-receptor dynamics and signal amplification in the neutrophil. 311 62


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