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)

Previous studies have indicated that the receptor for N-formylated peptides present on human neutrophils can exist in several ligand-dissociation states at least one of which is sensitive to guanine nucleotides. Human neutrophil membranes rich in cell surface enzyme markers have been isolated from cells pretreated at 37 degrees C with 5 nM fluoresceinated chemotactic peptide (N-formyl-Nle-Leu-Phe-Nle-Tyr-Lys-fluorescein; Fl-peptide) or a buffer control and analyzed for receptor-ligand dissociation states using a previously published fluorescence assay for estimating ligand binding and dissociation rates (Sklar, L. A., et al. 1984. J. Biol. Chem. 259:5661-5669). Fractionation of crude microsomes derived from homogenates of unstimulated cells by ultracentrifugation on linear D2O gradients yielded two plasma membrane-rich fractions termed fast and slow microsomes. Analysis of Fl-peptide dissociation rates from receptor present in fast membrane fractions of unstimulated cells yielded data that could be best fit by assuming that the receptor exists in three distinct ligand-dissociation states. The intermediate ligand-dissociation state (state B) accounted for 47% of the total and was converted to the fastest ligand-dissociation state (state A) by incubation of membranes with GTP or GTP-gamma-S. The remainder of the receptor (17%) present in unstimulated membranes was in a state from which ligand was virtually nondissociable (state C). This form of the receptor was insensitive to GTP-gamma-S. When cells were stimulated with Fl-peptide, most of the receptor present in slow and fast membranes was of the state C type. In contrast to unstimulated cells, slow membranes derived from cells exposed to Fl-peptide contained the majority of the recoverable receptor indicating that receptor was transferred to a physically isolatable membrane domain after ligand binding to the intact cell. The ligand-induced formation of state C in both fast and slow microsome fractions was inhibited by treatment of cells with dihydrocytochalasin B. However, the drug had no effect on translocation of the receptor to slow membranes. Pertussis toxin treatment of intact cells had no effect on ligand-induced formation of state C in either fraction even though other cellular responses were inhibited. Both slow and fast membranes contained a 41-kD G protein as assayed by immunoblot analysis. The data suggest that ligand induces a segregation of receptor-ligand complexes into a membrane domain in which the receptor is functionally uncoupled from the 41-kD neutrophil G protein.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of the affinity state of the N-formylated peptide receptor of neutrophils: role of guanine nucleotide-binding proteins and the cytoskeleton. 312 39

Binding of chemoattractants to specific cell surface receptors on polymorphonuclear leukocytes (PMNs) initiates a series of biochemical responses leading to cellular activation. A critical early biochemical event in chemoattractant (CTX) receptor-mediated signal transduction is the phosphodiesteric cleavage of plasma membrane phosphatidylinositol 4,5-bisphosphate (PIP2), with concomitant production of the calcium mobilizing inositol-1,4,5-trisphosphate (IP3) isomer, and the protein kinase C activator, 1,2-diacylglycerol (DAG). The following lines of experimental evidence collectively suggest that CTX receptors are coupled to phospholipase C via a guanine nucleotide binding (G) protein. Receptor-mediated hydrolysis of PIP2 in PMN plasma membrane preparations requires both fMet-Leu-Phe and GTP, and incubation of intact PMNs with pertussis toxin (which ADP ribosylates and inactivates some G proteins) eliminates the ability of fMet-Leu-Phe plus GTP to promote PIP2 breakdown in isolated plasma membranes. Studies with both PMN particulate fractions and with partially purified fMet-Leu-Phe receptor preparations indicate that guanine nucleotides regulate CTX receptor affinity. Finally, fMet-Leu-Phe stimulates high-affinity binding of GTP gamma S to PMN membranes as well as GTPase activity. A G alpha subunit has been identified in phagocyte membranes which is different from other G alpha subunits on the basis of molecular weight and differential sensitivity to ribosylation by bacterial toxins. Thus, a novel G protein may be involved in coupling CTX receptors to phospholipase C. Studies in intact and sonicated PMNs demonstrate that metabolism of 1,4,5-IP3 proceeds via two distinct pathways: 1) sequential dephosphorylation to 1,4-IP2, 4-IP1 and inositol, or 2) ATP-dependent conversion to inositol 1,3,4,5-tetrakisphosphate (IP4) followed by sequential dephosphorylation to 1,3,4-IP3, 3,4-IP2, 3-IP1 and inositol. Receptor-mediated hydrolysis of PIP2 occurs at ambient intracellular Ca2+ levels; but metabolism of 1,4,5-IP3 via the IP4 pathway requires elevated cytosolic Ca2+ levels associated with cellular activation. Thus, the two pathways for 1,4,5-IP3 metabolism may serve different metabolic functions. Additionally, inositol phosphate production appears to be controlled by protein kinase C, as phorbol myristate acetate (PMA) abrogates PIP2 hydrolysis by interfering with the ability of the activated G protein to stimulate phospholipase C. This implies a physiologic mechanism for terminating biologic responses via protein kinase C mediated feedback inhibition of PIP2 hydrolysis.
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PMID:Regulation of inositol phospholipid and inositol phosphate metabolism in chemoattractant-activated human polymorphonuclear leukocytes. 312 97

A specific, pertussis toxin-sensitive, GTP binding, regulatory protein of neutrophils which we term "Gn" couples the reaction of chemotactic factors with their specific receptors to the resultant stimulation of chemotaxis, granule enzyme secretion, O2- generation, aggregation etc. The ability of four chemotactic formylpeptides to increase the GTPase activity of isolated plasma membranes of rabbit neutrophils correlates almost perfectly with the ability of the same peptides to cause granule enzyme release. These and other findings provide formal evidence for the previous assumption that fMET-Leu-Phe increases the GTPase activity of Gn by reacting with the same receptor that triggers granule enzyme release and other stimulated functions of the neutrophil. The molecular weight of 40 kDa and isoelectric point of 5.5 of the [32P] ADP-ribosylated alpha subunit of Gn, differ slightly but significantly from the corresponding alpha subunits of the other G proteins that are substrates for pertussis toxin. Differences also exist in the patterns of proteolytic fragments of the alpha subunit of Gn and those of the other G proteins. These observations indicate that in neutrophils a G protein distinct from the previously identified pertussis toxin substrates couples the stimulation of chemotactic receptors to the physiological function of cells. The dissociation constants of binding (Kd) for the high and low affinity sites of the formylpeptide receptor of rabbit peritoneal neutrophils and the ability to induce secretion of beta glucosaminidase from the same cells were determined for each of seven chemotactic formylpeptides.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nature and functioning of the pertussis toxin-sensitive G protein of neutrophils. 312 40

The ADP-ribosyltransferase activity of pertussis toxin resides within the S-1 subunit of the toxin. Deletion mapping of a recombinant S-1 subunit produced in Escherichia coli showed that amino acids 2 through 180 are required for ADP-ribosylation of Gi protein. Mutants of the S-1 subunit which lacked either amino acids 2 through 22 or amino acids 153 through 180 failed to express enzyme activity, implicating a functional or structural role for these residues in catalysis. The catalytic carboxy-terminal S-1 deletion, C-180, was found to be more soluble than the recombinant S-1 subunit, making it a useful construct for future structure-function studies on enzyme catalysis. Four independent single-amino-acid substitutions which decreased ADP-ribosyltransferase activity were constructed in the recombinant S-1 subunit. Substitution of Asp-11 by Ser, Arg-13 by Leu, or Trp-26 by Ile decreased enzyme activity to below detectable levels (less than 1.0% of that of the recombinant S-1 subunit). The Glu-139-to-Ser substitution reduced ADP-ribosyltransferase activity to 15% of that of the recombinant S-1 subunit. Both the oxidized and reduced forms of the recombinant S-1 subunit and recombinant S-1 subunits containing single-amino-acid substitutions were degraded through identical immunoreactive tryptic peptides, suggesting that the conformations of the mutants are similar to that of the recombinant S-1 subunit. Identification of noncatalytic forms of the S-1 subunit of pertussis toxin which have conserved protein structure is an initial step in the generation of a recombinant noncatalytic form of pertussis toxin which may be tested as a candidate for an acellular vaccine against Bordetella pertussis.
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PMID:ADP-ribosyltransferase mutations in the catalytic S-1 subunit of pertussis toxin. 313 65

Addition of pertussis toxin to rabbit neutrophils inhibits the fMet-Leu-Phe- induced increases in Na+ influx and in intracellular pH. In addition, pretreatment of the cells with the toxin inhibits the decrease in the levels of phosphatidylinositol 4,5-bisphosphate and phosphatidylinositol 4-phosphate and the enhanced production of phosphatidic acid produced by the chemotactic factor fMet-Leu-Phe. Furthermore, the fMet-Leu-Phe-induced changes in the phosphorylation of a 46-kDa protein and of several other proteins are also inhibited by the toxin. On the other hand, the phorbol 12-myristate 13-acetate (PMA)-induced increases in the phosphorylation of several proteins are not inhibited by the toxin. PMA, but not its inactive analogue 4 alpha-phorbol 12,13-didecanoate, was also found to stimulate Na+ influx and to increase the intracellular pH in rabbit neutrophils. These ionic effects, like those produced by fMet-Leu-Phe, are inhibited by amiloride. The stimulated Na+ influx and H+ efflux produced by the phorbol ester, on the other hand, are not inhibited by pertussis toxin. The results reported here suggest that the activity of the Na+/H+ antiport in neutrophils is regulated by protein kinase C; that the G-protein system, either directly or indirectly, is involved in the stimulus-response coupling sequence in these cells; and that the toxin acts at, or prior to, the steps responsible for the activation of phospholipase C, and it does not affect the sequence of reactions initiated by the activation of the protein kinase C.
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PMID:Pertussis toxin inhibits fMet-Leu-Phe- but not phorbol ester-stimulated changes in rabbit neutrophils: role of G proteins in excitation response coupling. 315 93

Anti-immunoglobulin treatment of fura-2-loaded Daudi cells induces a calcium mobilization as judged by the increase in the fluorescence of the dye fura-2, AM. No calcium mobilization by N-fMet-Leu-Phe is observed in these cells. However, exposure of the cells to N-fMet-Leu-Phe after the first hit with anti-immunoglobulin (but not after soluble IgG) shows a rapid, dose-dependent calcium mobilization by N-fMet-Leu-Phe. The expression of the calcium-mobilizing response occurs in less than 2 min and is stable. Binding of tritiated N-fMet-Leu-Phe is increased in anti-immunoglobulin-treated but not control cells. The induction is specific for N-fMet-Leu-Phe because the chemoattractant platelet-activating factor did not induce any calcium mobilization. The N-fMet-Leu-Phe antagonist t-butoxycarbonyl-L-Phe-D-Leu-L-Phe-D-Leu-L-Phe- OH did not show any calcium mobilization on its own, either before or after anti-immunoglobulin treatment, and inhibited the calcium mobilization of N-fMet-Leu-Phe at low concentrations. Treatment of the cells with phorbol 12-myristate 13-acetate or pertussis toxin prior to anti-immunoglobulin treatment caused a dose-dependent abolition of both the anti-immunoglobulin-mediated calcium mobilization and the subsequent calcium mobilization by N-fMet-Leu-Phe. Metabolic inhibitors that act predominantly by lowering the ATP levels within the cell (iodoacetate, sodium fluoride, oligomycin, and 2-deoxyglucose) all produced a greater inhibition of the N-fMet-Leu-Phe-mediated calcium mobilization than the anti-immunoglobulin-mediated response. Lowering the temperature from 37 degrees C to 22 degrees C reduced the anti-immunoglobulin response and completely inhibited the expression of the N-fMet-Leu-Phe effect. Our results indicate that activation of the calcium-mobilization pathway in B cells by crosslinking of bound surface immunoglobulin causes an induction of N-fMet-Leu-Phe-sensitive calcium mobilization.
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PMID:Anti-immunoglobulin pretreatment induces a calcium-mobilization response to the chemotactic agent N-formylmethionylleucylphenylalanine in Daudi lymphoblastoid cells. 319 20

Protein tyrosine phosphorylation in rabbit peritoneal neutrophils was examined by immunoblotting with antibodies specific for phosphotyrosine. Two tyrosine phosphorylated proteins were found with apparent molecular weights of 62,000 (p62) and 125,000. Both were enriched in the membrane fraction. Stimulation of the neutrophils with chemotactic factor fMet-Leu-Phe (10(-8)M, 20 sec) but not phorbol 12-myristate-13-acetate (0.1 microgram/ml, 10 min) caused rapid increase in tyrosine phosphorylation. The effect of fMet-Leu-Phe was inhibited by the pretreatment of neutrophils with pertussis toxin. The p62 protein was also recognized by antibody raised against a synthetic fragment commonly found in the tyrosine kinases of the src gene family. The results indicate that stimulation of the tyrosine phosphorylation of membrane associated proteins is one of the early events occurring in activated neutrophil and this stimulation of tyrosine phosphorylation may be regulated by a GTP-binding protein.
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PMID:Chemotactic factor induced tyrosine phosphorylation of membrane associated proteins in rabbit peritoneal neutrophils. 334 12

Stimulation of the neutrophils with fMet-Leu-Phe inhibits the rise in intracellular concentration of free calcium produced by the subsequent addition of platelet-activating factor. This deactivation is not observed in pertussis toxin treated cells. In addition, preincubation of the cells with the protein kinase C activator phorbol 12-myristate 13-acetate for three minutes abolishes completely the rise in calcium produced by platelet-activating factor. This inhibition is prevented by the addition of the protein kinase C inhibitor 1-(5-isoquinoline-sulfonyl)-2-methyl piperazine prior to the addition of the phorbol ester. Phorbol 12-myristate 13-acetate, at a concentration that does not produce significant inhibition, accelerates the rate of calcium removal from the cytoplasm, and this is abolished by the protein kinase C inhibitor. In contrast, the deactivation by fMet-Leu-Phe is not prevented by the protein kinase C inhibitor. The results presented here suggest that the protein kinase C system may regulate the opening by platelet-activating factor of possible plasma membrane associated pertussis toxin independent calcium channels and/or the binding of platelet-activating factor to the receptors. In addition, protein kinase C activation increases the rates of the calcium efflux pump and/or calcium sequestering by intracellular organelles. The most simple and straightforward explanation of the observed deactivation by fMet-Leu-Phe is that the addition of fMet-Leu-Phe to neutrophils stimulates the production of platelet-activating factor which then binds to and deactivates the receptors.
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PMID:Intracellular calcium rise produced by platelet-activating factor is deactivated by fMet-Leu-Phe and this requires uninterrupted activation sequence: role of protein kinase C. 334 14

Human leukocyte 5-lipoxygenase (EC 1.13.11.12) is unique among the human lipoxygenase not only in its requirement for free ionized calcium, but also in its regulation by a membrane-associated stimulatory factor, the 100,000 x g pellet. In the present study, phosphatidylcholine (PC) vesicles, in the absence of 100,000 x g pellet, exhibited a dose-dependent stimulatory activity on the 5-lipoxygenase, which was at least as effective as the 100,000 x g pellet. Furthermore, the enzyme was activated by isolated human neutrophil plasma membranes and to a lesser degree by endoplasmic reticulum. The chemoattractant peptide fMet-Leu-Phe (0.1 microM), GTP (10 microM), toxin from bacterium Bordetella pertussis (islet activating protein, 5 micrograms/ml) and their various combinations were unable to modulate the enzymatic activity of the 5-lipoxygenase. Stimulation of the 5-lipoxygenase by relatively low levels of free ionized calcium was observed both in the presence of the pellet and PC vesicles: maximal stimulation was seen at about 10 microM Ca2+. The human leukocyte leukotriene A4 synthase activity also exhibited a similar requirement for free calcium ions. The present study indicates that the membrane-associated stimulatory factor of the human leukocyte 5-lipoxygenase may be replaced by PC vesicles. Moreover, the 5-lipoxygenase and leukotriene A4 synthase activities require significantly lower Ca2+ levels for maximal activation than has been reported previously.
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PMID:Regulation of the human leukocyte 5-lipoxygenase: stimulation by micromolar Ca2+ levels and phosphatidylcholine vesicles. 338 74

The effects of f-Met-Leu-Phe (fMLP) on neutrophils, i.e. elevation of the levels of cytoplasmic Ca2+ and intramembranous diacylglycerol, would be expected to be accompanied by translocation of protein kinase C (PKC) to the plasmalemma. However, fMLP-induced PKC translocation could hitherto be demonstrated only when cells were additionally treated with cytochalasin B. We show here that treatment of guinea pig neutrophils with fMLP alone does lead to a significant PKC translocation which can be inhibited by pertussis toxin. The translocation can be detected only if the incubation is terminated within 30 sec after addition of fMLP, the termination is rapid, e.g. by application of a freeze clamp-technique, and the concentration of Ca2+ chelators in the buffer used for lysing the cells is low.
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PMID:Features of the translocation of protein kinase C in neutrophils stimulated with the chemotactic peptide f-Met-Leu-Phe. 346 78


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