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)

Short-chain carboxylic acids (SCCA) are metabolic by-products of bacterial pathogens which can alter cytoplasmic pH and inhibit a variety of polymorphonuclear leukocyte (PMN) motile functions. Since cytoskeletal F-actin alterations are central to PMN mobility, in this study we examined the effects of SCCA on cytoskeletal F-actin. Initially, we tested nine SCCA (formate, acetate, propionate, butyrate, valerate, caproate, lactate, succinate, and isobutyrate). We document here that while eight altered cytoplasmic pH, only six altered cytoskeletal F-actin. We then selected one SCCA that altered both F-actin and cytoplasmic pH (propionate) and one SCCA that altered only cytoplasmic pH (lactate) for further study. Propionate, but not lactate, caused an irregular cell shape and F-actin distribution. Furthermore, propionate, but not lactate, inhibited formylmethionyl-leucyl-phenylalanine (fMLP)-stimulated PMN polarization, F-actin localization, and cytoplasmic pH oscillation. Propionate-induced changes in cytoskeletal F-actin and cytoplasmic acidification were not affected by the fMLP receptor antagonist N-t-BOC-1-methionyl-1-leucyl-1-phenylalanine; however, alkalinization was affected. Pertussis toxin treatment completely inhibited propionate-induced changes in F-actin but had no effect on propionate-induced cytoplasmic pH oscillation. These results indicate that propionate (i) bypasses the fMLP receptor and G protein(s) to induce cytoplasmic pH oscillation, (ii) operates through G protein(s) to induce actin oscillation, cell shape changes (to irregular), and F-actin localization, and (iii) inhibits fMLP-stimulated cytoplasmic pH and actin oscillation, PMN polarization, and F-actin localization.
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PMID:Propionate induces polymorphonuclear leukocyte activation and inhibits formylmethionyl-leucyl-phenylalanine-stimulated activation. 131 7

Activation of the respiratory burst in the monocytic cell line U937 by cross-linking human 40-kDa FcR for IgG (Fc gamma RII) with the IgG1 mAb, CIKM5, is dependent on the maturation state of the cell. Addition of anti-Fc gamma RII to undifferentiated cells does not activate the respiratory burst but differentiation with human rIFN-gamma (200 U/ml) for 13 to 15 days results in maximal stimulation by this agonist, with half-maximal responses in cells incubated for 10 to 12 days. During maturation the development of responsiveness to cross-linking Fc gamma RII occurs later than the development of responsiveness to the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (maximal responses at 7 to 9 days), or the chemotactic peptide FMLP (half-maximal responses at 7 to 9 days). The late development of maximal Fc gamma RII responses is not associated with either increased Fc gamma RII expression, enhanced calcium mobilization induced by anti-Fc gamma RII, changes in protein kinase C activity (PKC) or a switch in PKC isotype expression. Activation of the respiratory burst via Fc gamma RII may not be mediated by activation of PKC as the kinase inhibitors 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride and N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide dihydrochloride inhibited the Fc gamma RII response by less than 20% at concentrations which inhibit the 12-O-tetradecanoylphorbol-13-acetate-induced respiratory burst by more than 80%. IFN-gamma U937 cells did not metabolize incorporated arachidonate into eicosanoids when stimulated with anti-Fc gamma RII, suggesting that eicosanoids do not mediate activation of the respiratory burst, and this was confirmed by the lack of inhibition by the specific 5'-lipoxygenase and glutathione S-transferase inhibitor, piriprost, and the cyclo-oxygenase inhibitor, indomethacin. In addition there was no significant release of radiolabeled arachidonate in response to anti-Fc gamma RII. The response to anti-Fc gamma RII is inhibited by pertussis toxin, suggesting that signal transduction is via a GTP-binding protein. Agents that elevate intracellular cAMP increased the magnitude of the cAMP transients stimulated by anti-Fc gamma RII and also inhibited the respiratory burst. FMLP responses showed a similar pattern of sensitivity to this range of inhibitors, suggesting that both Fc gamma RII and FMLP receptor share common regulatory mechanisms. However, the termination of the respiratory burst activated via Fc gamma RII and FMLP receptor is independently regulated, in that after FMLP-induced activation there is no subsequent inhibition of the Fc gamma RII-mediated response and vice versa.
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PMID:Differentiation-linked activation of the respiratory burst in a monocytic cell line (U937) via Fc gamma RII. A study of activation pathways and their regulation. 165 5

The alpha-subunit of Gi-2, in addition to that of Gs (GTP-binding proteins involved in adenylate cyclase inhibition and stimulation, respectively) was ADP-ribosylated by cholera toxin in HL-60 cell membranes when a chemotactic receptor was stimulated by formyl-Met-Leu-Phe (fMLP), and the sites modified by cholera and pertussis toxins on the alpha-subunit of Gi-2 were different (Iiri, T., Tohkin, M., Morishima, N., Ohoka, Y., Ui, M., and Katada, T. (1989) J. Biol. Chem. 264, 21394-21400). In order to investigate how the functions of Gi-2 were modified by cholera toxin, the ADP-ribosylated and unmodified proteins were purified from HL-60 cell membranes that had been incubated in the presence and absence of cholera toxin, respectively. The modified Gi-2 displayed unique properties as follows. 1) The ADP-ribosylated alpha-subunit had a more acidic pI than the unmodified one, leading to a partial resolution of the modified Gir2 trimer from the unmodified protein by an anion column chromatography. 2) When the purified proteins were incubated with [gamma-32P]GTP, the radioactivity was more greatly retained in the modified Gi-2 than in the unmodified protein. 3) The actual catalytic rate (kcat) of GTP hydrolysis was, indeed, markedly inhibited by cholera toxin-induced modification. 4) There was an increase in the apparent affinity of Gi-2 for GDP by cholera toxin-induced modification. 5) The modified Gi-2 exhibited a low substrate activity for pertussis toxin-catalyzed ADP-ribosylation. 6) A high-affinity fMLP binding to HL-60 cell membranes was more effectively reconstituted with the ADP-ribosylated Gi-2 than with the unmodified protein. These results suggested that the agonist-fMLP receptor complex was effectively coupled with the ADP-ribosylated Gi-2, resulting in the GTP-bound form, and that the hydrolysis of GTP on the modified alpha-subunit was selectively attenuated. Thus, cholera toxin ADP-ribosylated Gi-2 appeared to be not only a less sensitive pertussis toxin substrate but also an efficient signal transducer between receptors and effectors.
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PMID:Modification of the function of pertussis toxin substrate GTP-binding protein by cholera toxin-catalyzed ADP-ribosylation. 173 Jun 31

We investigated the requirement for N-formyl peptide receptor-mediated transmembrane signalling in transfected mouse fibroblasts that express the receptor. Stably transfected cells displayed specific binding for N-formyl-Met-Leu-[3H]Phe with a dissociation constant of 3 nM. The cells responded to ligand stimulation with mobilization of calcium from intracellular stores. Calcium mobilization was ligand dose-dependent (EC50 = 3 nM fMet-Leu-Phe) and could be inhibited by pertussis toxin treatment. These results provide the first demonstration that expression of the single-chain N-formyl peptide receptor in mouse fibroblasts is sufficient for mediating ligand-induced early transmembrane signalling events, which do not appear to require other neutrophil-specific cellular components.
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PMID:Transmembrane signalling by the N-formyl peptide receptor in stably transfected fibroblasts. 188 72

The effect of differentiation on FMLP-stimulated InsP production and G-protein expression was investigated in U937 monocytes. FMLP (0.01-10 microM) stimulated [3H]InsP production in dimethyl sulphoxide-differentiated, but not in immature, U937 cells. Ionomycin (1 and 10 microM) stimulated [3H]InsP production equally well in both cell types. The FMLP response was blocked by pertussis toxin (100 ng/ml for 4 h) which catalysed [32P]ADP ribosylation of a 40 kDa 'Gi-like' G-protein alpha subunit in these cells. This protein was also identified immunologically using anti-peptide antibodies that detect 'Gi-like' alpha subunits (SG2) or Gi2 alpha specifically (LE2). With LE2 a 5-fold increase in Gi2 alpha levels was seen following differentiation of the cells, suggesting that FMLP receptor expression is accompanied by an increase in the G-protein with which these receptors interact.
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PMID:Stimulus-response coupling in FMLP-stimulated U937 monocytes: effect of differentiation on Gi2 expression. 210 4

Human rTNF-alpha (greater than or equal to U/ml) decreased PMN nondirected and directed migration to FMLP to approximately 50% of control. Adenosine (100 microM) almost completely restored hrTNF-inhibited migration (nondirected from 54 to 92% and directed migration to from 54 to 93% of control). The lowest concentration of adenosine that restored hrTNF-inhibited migration was 3 microM, and the adenosine analogue, 5'-(N-cyclopropyl)-carboxamido-adenosine (CPCA) was more potent than adenosine. Although CPCA binds to A2-receptors and stimulates adenylate cyclase, the reversal of hrTNF-inhibited chemotaxis was found to be independent of both PMN cAMP content and binding to A2-receptors, because neither 8-Br-cAMP nor pertussis adenylate cyclase restored hrTNF-inhibited PMN chemotaxis and the A2-receptor antagonist, 1,3-dipropyl-7-methylxanthine decreased CPCA stimulated cAMP but enhanced CPCA-restoration of hrTNF-inhibited chemotaxis. The effect of adenosine could be augmented by inhibition of adenosine uptake and decreased by adenosine deamination. Pentoxifylline, (3,7 dimethyl-1-[5 oxo-hexyl] xanthine), like adenosine also restored PMN chemotaxis inhibited by hrTNF. The adenosine receptor antagonist, 1,3-dipropyl-8(phenyl-p-acrylate)-xanthine (BW A1433U), decreased restoration of hrTNF-inhibited chemotaxis by CPCA or pentoxifylline. Thus, the inhibitory effect of hrTNF on PMN migration can be counteracted by adenosine, CPCA, pentoxifylline, and compounds that increase adenosine availability to the surface of the PMN. Inasmuch as an A1-selective agonist N6-cyclopentyladenosine was less active, and the action of the A2-selective agonist CPCA was enhanced by an A2-receptor antagonist, we hypothesize that neither A1 or A2 receptors are involved in adenosine restoration of hrTNF-inhibited chemotaxis. Further, increased cAMP, an A2-regulated event, does not cause the effect, and adenosine restoration of hrTNF-inhibited migration does not appear to be mediated by changes in PMN [F-actin], FMLP receptor expression, or cytosolic calcium. Hence, the restoration of hrTNF-inhibited chemotaxis is controlled by a novel cyclic AMP-independent action on the PMN surface.
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PMID:Adenosine and related compounds counteract tumor necrosis factor-alpha inhibition of neutrophil migration: implication of a novel cyclic AMP-independent action on the cell surface. 216 64

The subcellular distribution of GTP binding proteins in human neutrophils and their functional coupling to the N-formylmethionylleucylphenylalanine (FMLP) receptor was characterized to provide insight into mechanisms of cellular activation. Human neutrophils were nitrogen cavitated and fractionated on discontinuous Percoll gradients. Four subcellular fractions were obtained: cytosol, light membranes enriched for plasma membranes, specific granules and azurophilic granules. ADP-ribosylation catalyzed by pertussis toxin (PT) revealed a major substrate of 40 kDa only in plasma membrane and cytosol, and antiserum specific for Gi alpha confirmed the presence of neutrophil Gi alpha in plasma membrane and cytosol and its absence from specific granules. The cytosolic PT substrate was shown to be mostly in monomeric form by molecular sieve chromatography. The rate of the ribosyltransferase reaction was several-fold lower in cytosol compared to plasma membranes, and the extent of ADP-ribosylation was greatly augmented by supplementation with beta gamma subunits in cytosol. ADP-ribosylation catalyzed by cholera toxin (CT) revealed substrates of 52, 43 and 40 kDa in plasma membrane alone. FMLP receptors in plasma membrane were shown to be coupled to the 40 kDa substrate for CT by ligand-modulation of ADP-ribosylation, while FMLP added to specific granules did not induce ribosylation of this substrate even though FMLP receptors were found in high density in this compartment. Both 24 and 26 kDa [32P]GTP binding proteins were found to codistribute with FMLP receptors in specific granules and plasma membranes. Functional evidence for the coupling of GTP binding proteins to the FMLP receptor in specific granules was obtained by modulating [3H]FMLP binding with GTP gamma S, and by accelerating [35S]GTP gamma S binding with FMLP.
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PMID:Subcellular distribution and characterization of GTP-binding proteins in human neutrophils. 216 12

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

Differentiated HL-60 cells were found to respond to the chemoattractants leukotriene B4 (LTB4) and N-formylmethionyl-leucyl-phenylalanine (FMLP), in a manner similar to neutrophils. Membranes of myeloid differentiated HL-60 cells were used (a) to examine the ability of LTB4 receptors to interact with a guanine-nucleotide-binding protein (G-protein), and (b) to compare this G-protein with that which is coupled to the FMLP receptor. LTB4 stimulated a dose-dependent increase in GTP hydrolysis and guanosine 5'-[gamma-thio]triphosphate (GTP[S]) binding, demonstrating that LTB4 receptors on HL-60 cells are coupled to a G-protein. Both pertussis toxin and cholera toxin inhibited stimulation of GTPase activity and GTP[S] binding by either LTB4 or FMLP, indicating that both receptors are coupled to a G-protein containing a 40 kDa alpha-subunit. That the two receptors share a common G-protein was shown by FMLP enhancement of cholera-toxin-induced inhibition of GTPase activity stimulated by either FMLP or LTB4. However, LTB4 did not enhance cholera-toxin-induced inhibition of GTPase activity, suggesting that the receptors interacted differently with this G-protein. This difference was confirmed by showing that FMLP, but not LTB4, stimulated receptor-specific [32P]ADP-ribosylation of the 40 kDa alpha-subunit. Concentrations of LTB4 and FMLP which produced maximal responses produced enhanced stimulation in both assays. This additive effect was not abolished by inactivation of up to 80% of G-protein activity by N-ethylmaleimide or cholera toxin. We conclude that LTB4 and FMLP receptors in HL-60 cells are coupled to a common G-protein. The receptor--G-protein interaction is different for the two receptors, and G-proteins not coupled to both receptors may account for the additive response.
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PMID:Evidence that activation of a common G-protein by receptors for leukotriene B4 and N-formylmethionyl-leucyl-phenylalanine in HL-60 cells occurs by different mechanisms. 254 77

Resting neutrophils may be "primed" to augmented effector function, eg, superoxide (O2-) production in the respiratory burst, upon a second stimulation with a variety of soluble agonists including formylated methionyl-leucyl-phenylalanine (FMLP) and phorbol myristate acetate (PMA). At priming concentrations of FMLP (5 x 10(-9) mol/L) that did not initiate O2- generation, two metabolic activities were noted: (1) approximately a threefold increase in the baseline intracellular calcium (Ca++i) level, that was not dependent on extracellular Ca++, and (2) a rapid rise in intracellular pH that was blocked by 5-(N,N-dimethyl) amiloride (DA), that had no effect on the Ca++i response to priming. Furthermore, there were no significant increases in inositol metabolites in cells primed and stimulated with FMLP compared with cells receiving the stimulating dose of FMLP alone and pretreatment with pertussis toxin (PT) (before the addition of the priming -5 x 10(-9) mol/L dose of FMLP), whereas abolishing the response to FMLP during the second stage of stimulation, had (1) no effect on FMLP-primed cells subsequently stimulated with PMA, and (2) only partially ablated the rise in Ca++i initiated with FMLP. That FMLP priming involved distinctive processes to those of the well characterized FMLP-coupled Ca++-dependent activation cascade was shown by the full priming effect attained in a Ca++-free buffer, which did not sustain an O2- response to a second-stage FMLP stimulation, but sustained a primed response to PMA. These data demonstrate that FMLP primes human neutrophils by a Ca++-independent and PT-insensitive pathway, offering a functional model for studying heterogeneous FMLP receptor-coupled reactions.
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PMID:Priming of human neutrophils with N-formyl-methionyl-leucyl-phenylalanine by a calcium-independent, pertussis toxin-insensitive pathway. 255 66


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